L'impiego dell'Ozono come sanitizzante contro batteri e virus

ozono L'Ozono è un gas instabile, scoperto nel 1840, formato da 3 atomi di ossigeno e leggermente più pesante dell'aria. Il suo nome deriva dal greco antico ozein (ὄζειν) che significa "odorare", perchè ha un odore pungente; ad elevate concentrazioni può irritare le mucose. E' tra i più potenti ossidanti e riesce a distruggere le membrane cellulare di batteri, muffe, lieviti ed ad inattivare i virus. Inoltre, riesce ad eliminare completamente anche pollini, tossine, acari e piccoli insetti.

Il suo potenziale ossidativo, ovvero il potenziale redox, è di +2,07 V ed è inferiore solo a pochissime sostanze (Fluoro + 2,87 V), ed è nettamente superiore a quello del Cloro +1,36 V o del perossido di Idrogeno (acqua ossigenata) +1,78 V. Quindi riesce ad essere più efficace nell'eliminare batteri e virus rispetto a questi ultimi.

redox

Il meccanismo con cui agisce l’Ozono è la perossidazione lipidica che genera composti biologicamente attivi che a livello cellulare causano danni ai fosfolipidi di membrana. Inoltre è capace di ossidare gli amminoacidi alterando irreversibilmente la struttura e la funzione delle proteine. Gli amminoacidi più sensibili all’azione dei radicali liberi sono prolina, istidina, quelli contenenti gruppi tiolici (cisteina e metionina) e gruppi aromatici (fenilalanina, tirosina, triptofano). L'inattivazione dei virus è stata finora meno studiata di quella dei batteri; è comunque noto che anch'essa avviene rapidamente in seguito ad ozonizzazione, anche se richiede una somministrazione di gas a concentrazioni superiori rispetto a quella necessaria per i batteri (Kim et al., 1999). Si è osservato, infatti, che le curve di inattivazione mostrano un rapido abbattimento delle colture fino al 99%; il restante 1% richiede un tempo maggiore per la totale inattivazione. Vari studi effettuati sulla sensibilità dei virus all'Ozono hanno dimostrato che i virus provvisti di membrana sono nettamente più sensibili di quelli che ne sono sprovvisti. Il meccanismo di azione dell'Ozono sui virus non è sicuramente quello di una distruzione, come nel caso dei batteri, ma di un'inattivazione; l'azione dell'Ozono consisterebbe in un’ossidazione, e conseguente inattivazione, dei recettori virali specifici utilizzati per la creazione del legame con la parete della cellula da invadere. Verrebbe così bloccato il meccanismo di riproduzione virale a livello della sua prima fase: l’invasione cellulare.

ozono

Anche le molecole chimiche odorose vengono ossidate, disattivando la loro carica odorigena e rendendo l'aria percettivamente più pura. Essendo instabile non può essere conservato, e deve essere prodotto al momento dell'uso, mediante generatori elettrici. Essendo 13 volte più solubile dell'ossigeno in acqua può essere sfruttata la sua capacità ossidante anche disciolto in acqua.

Riconoscimenti:

L’Ozono è approvato dal Ministero della Sanità come “Presidio Naturale per la Sterilizzazione di Ambienti” (prot. n.24482 del 31/07/1996).
Il Ministero della Salute con CNSA del 21/10/2010 ha inoltre riconosciuto l’utilizzo dell’Ozono nel trattamento dell’aria e dell’acqua come agente disinfettante e disinfestante.
Il 26 giugno del 2001 la Food and Drug Administration USA ha approvato l'uso dell'Ozono come agente antimicrobico.

Inoltre è stato utilizzato come agente disinfettante nella produzione di acqua potabile, in Francia dal 1906 ed in Germania dal 1972. La scelta dell’Ozono fu basata sul fatto che esso è più efficace di altri disinfettanti verso un più ampio spettro di microorganismi.

Dato il suo forte potere ossidante, l'Ozono viene già da molti decenni impiegato per sbiancare e disinfettare ed in particolare è utilizzato per:

disinfezione dell'acqua negli acquedotti;
disinfezione dell'acqua delle piscine;
disinfezione dell'acqua destinata all'imbottigliamento;
disinfezione di superfici destinate al contatto con gli alimenti;
disinfezione dell'aria da virus, batteri, spore, muffe e lieviti;
disinfezione da acari e piccoli insetti;
disinfezione di frutta e verdura da spore di muffe e lieviti;
disinfestazione delle derrate alimentari e del legno;
ossidazione di inquinanti chimici dell'acqua (ferro, arsenico, acido solfidrico, nitriti e complessi organici);
ausilio alla flocculazione di fanghi attivi nella depurazione delle acque;
pulizia e sbiancamento dei tessuti.

Quindi l’Ozono è sicuro e rispettoso dell’ambiente. Non danneggia mobili, pareti o tessuti e non lascia residui.
Inoltre, in campo medico l'Ozono avendo capacità antibatterica è in grado di potenziare le difese organiche aspecifiche della pelle, inoltre è in grado di inibire la crescita e la proliferazione dei dermatofiti in corso di dermatite micotica. L'Ozono trova ora impiego anche come terapia delle otiti di origine batterica e funginea, dove svolge attività antalgica e antiinfiammatoria. In ortopedia e chirurgia viene utilizzato per indurre una rapida cicatrizzazione in caso di ferite chirurgiche, fistole, suture e fissatori esterni.

ozono Essendo però irritante ad alte concentrazioni va trattato con cura!
Il trattamento degli ambienti deve avvenire senza la presenza di persone e/o animali, che potranno rioccupare i locali in tempi relativamente brevi in base alla quantità di Ozono emessa.
Attualmente sono in vigore dei limiti di esposizione per le concentrazioni di Ozono in aria a cui siano esposti i lavoratori:

TLV-TWA (ACGIFI): 0,1 ppm (0,2 mg/m3)
TLV-STEL (ACG1H): 0,3 ppm (0,6 mg/m3)

La soglia olfattiva per l'Ozono è 0,05 ppm, cioè circa sei volte inferiore all'attuale TLV-STEL (Threshold Limit Value - Short Term Exposure Limit- Valore Limite per brevi esposizioni) e circa 2 volte il valore di TLV-TWA (Threshold Limit Value - Time Weighted Average - Valore Limite per esposizioni prolungate nel tempo).
L'odore non costituisce comunque un indice attendibile della concentrazione presente nell'aria in quanto dopo un breve periodo di esposizione si verifica una assuefazione all'odore stesso.

L'Ozono ha grossi vantaggi, ma va utilizzato in modo da non nuocere alle persone e allo stesso tempo si deve garantire che nei punti più lontani si raggiungano concentrazioni tali da abbattere tutti i microrganismi. La soluzione più economica è fare in proprio la sanitizzazione, ma per questo è consigliabile: verificare l'efficacia dell'ozonizzatore e della sua distribuzione, formarsi ed attenersi a delle Linee Guida di utilizzo, personalizzate per i propri locali.

Riassumendo: l'Ozono è un eccellente sistema per la sanitizzazione degli ambienti, ma va utilizzato da personale esperto.

Per approfondimento:

Per chi vuole ascoltare l'articolo sotto forma di podcast:

Cosa offrono i tecnici dell’A2C

A2C

I professionisti del gruppo A2C con esperienza sia impiantistica e sia chimico/microbiologica propongono due servizi di ausilio alla sanitizzazione con Ozono in proprio:

Formazione all'utilizzo dell'Ozono con sanitizzazione dimostrativa.
Verifica funzionalità ozonizzatore e redazione di Linee Guida personalizzate.

L'intervento di formazione si componedi 3 fasi:

Sopralluogo e indagine preliminare della qualità dell'aria e delle caratteristiche dei locali.
Messa a disposizione di un ozonizzatore, in caso il committente non lo abbia disponibile.
Emissione di un certificato di efficacia della sanitizzazione effettuata, in rapporto alle indicazioni del Ministero della Salute.

ozonizzatoreA2C-150x212 L'intervento di verifica e redazione Linee Guida si componedi 4 fasi:

Sopralluogo e indagine preliminare della qualità dell'aria e delle caratteristiche dei locali.
Verifica della funzionalità ed efficacia dell'ozonizzatore in possesso del committente.
Eventuali sperimentazioni di accorgimenti per migliorare la distribuzione dell'Ozono e garantire il rispetto dei livelli minimi di garanzia di abbattimento dei patogeni.
Redazione di una Linea Guida personalizzata per il corretto ed efficace utilizzo, anche in relazione alla salute dell'esecutore, dei lavoratori e del pubblico.

Il prezzo dell'intervento è legato:

alla dimensione dei locali
alla distanza dalla sede A2C di Salerno.

Il presente servizio è attivo nella Provincia di Salerno.

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Per eventuale approfondimento si riporta la bibliografia più rilevante sull'ozono (aggiornata ad aprile 2020):

K Handarini, J S Hamdani, Y Cahyana and I S Setiasih, Functional, thermal, and molecular properties of ozonated starches, IOP Conference Series: Earth and Environmental Science, 10.1088/1755-1315/443/1/012102, 443, (012102), (2020).
G Genecya, I S Setiasih and R Andoyo, Effect of ozonation and pasteurization on total microorganism, pH and density whole milk and skim milk during cold storage, IOP Conference Series: Earth and Environmental Science, 10.1088/1755-1315/443/1/012065, 443, (012065), (2020).
Marie-Eve Dubuis, Nathan Dumont-Leblond, Camille Laliberté, Marc Veillette, Nathalie Turgeon, Julie Jean and Caroline Duchaine, Ozone efficacy for the control of airborne viruses: Bacteriophage and norovirus models, PLOS ONE, 10.1371/journal.pone.0231164, 15, 4, (e0231164), (2020).
Anjaly Paul, Mahendran Radhakrishnan, Sugumar Anandakumar, Saravanan Shanmugasundaram and Chinnaswamy Anandharamakrishnan, Disinfestation techniques for major cereals: A status report, Comprehensive Reviews in Food Science and Food Safety, , (2020).
Akbar Bahrami, Zahra Moaddabdoost Baboli, Keith Schimmel, Seid Mahdi Jafari and Leonard Williams, Efficiency of novel processing technologies for the control of Listeria monocytogenes in food products, Trends in Food Science & Technology, 10.1016/j.tifs.2019.12.009, 96, (61-78), (2020).
Burak Polat and Osman Tiryaki, Assessing washing methods for reduction of pesticide residues in Capia pepper with LC-MS/MS, Journal of Environmental Science and Health, Part B, 10.1080/03601234.2019.1660563, 55, 1, (1-10), (2019).
Shruti Sethi, Swarajya Laxmi Nayak, Alka Joshi and Ram Roshan Sharma, Sanitizers for fresh-cut fruits and vegetables, Fresh-Cut Fruits and Vegetables, 10.1016/B978-0-12-816184-5.00005-7, (99-119), (2020).
Kejora Handarini, Jajang Sauman Hamdani, Yana Cahyana and Imas Siti Setiasih, Gaseous Ozonation at Low Concentration Modifies Functional, Pasting, and Thermal Properties of Arrowroot Starch (Maranta arundinaceae), Starch - Stärke, 1900106, (2020).
W Suryaningsih, Supriyono, B Hariono and MF Kurnianto, Improving The Quality of Smoked Shark Meat With Ozone Water Technique, IOP Conference Series: Earth and Environmental Science, 10.1088/1755-1315/411/1/012048, 411, (012048), (2020).
Sh Bing, Y T Zang, Y J Li and D Q Shu, The synergistic effects of slightly acidic electrolyzed water and UV-C light on the inactivation of Salmonella enteritidis on contaminated eggshells, Poultry Science, 10.3382/ps/pez454, (2019).
Hanna Alves, Ernandes Rodrigues de Alencar, Wallas Felippe de Souza Ferreira, Caroline Rosa da Silva and Jaqueline Lamounier Ribeiro, Aspectos microbiológicos e físico-químicos de morango exposto ao gás ozônio em diferentes concentrações durante o armazenamento, Brazilian Journal of Food Technology, 10.1590/1981-6723.00218, 22, 0, (2019).
Ana Campayo, Kortes Serrano de la Hoz, M. Mercedes García-Martínez, M. Rosario Salinas and Gonzalo L. Alonso, Spraying Ozonated Water on Bobal Grapevines: Effect on Wine Quality, Biomolecules, 10.3390/biom10020213, 10, 2, (213), (2020).
Raouf Aslam, Mohammed Shafiq Alam and Panayampadan Afthab Saeed, Sanitization Potential of Ozone and Its Role in Postharvest Quality Management of Fruits and Vegetables, Food Engineering Reviews, 10.1007/s12393-019-09204-0, (2019).
Xiaoyu Jia, Jiangkuo Li, Meijun Du, Zhiyong Zhao, Jianxin Song, Weiqiao Yang, Yanli Zheng, Lan Chen and Xihong Li, Combination of Low Fluctuation of Temperature with TiO2 Photocatalytic/Ozone for the Quality Maintenance of Postharvest Peach, Foods, 10.3390/foods9020234, 9, 2, (234), (2020).
Ugo De Corato, Improving the shelf-life and quality of fresh and minimally-processed fruits and vegetables for a modern food industry: A comprehensive critical review from the traditional technologies into the most promising advancements, Critical Reviews in Food Science and Nutrition, 10.1080/10408398.2018.1553025, (1-36), (2019).
Anna Baggio, Marilena Marino, Nadia Innocente, Monica Celotto and Michela Maifreni, Antimicrobial effect of oxidative technologies in food processing: an overview, European Food Research and Technology, 10.1007/s00217-020-03447-6, (2020).
Juliana Martins de Oliveira, Ernandes Rodrigues de Alencar, Luiz Eduardo Bassay Blum, Wallas Felippe de Souza Ferreira, Silvia de Carvalho Campos Botelho, Aline Mondini Calil Racanicci, Eliana dos Santos Leandro, Marcio Antônio Mendonça, Eder Stolben Moscon, Lincoln Vicente Araújo dos Santos Bizerra and Caroline Rosa da Silva, Ozonation of Brazil nuts: Decomposition kinetics, control of Aspergillus flavus and the effect on color and on raw oil quality, LWT, 10.1016/j.lwt.2020.109106, (109106), (2020).
Geovana D. Savi, Thauan Gomes, Sílvia B. Canever, Ana C. Feltrin, Karim C. Piacentini, Rahisa Scussel, Daysiane Oliveira, Ricardo A. Machado-de-Ávila, Maykon Cargnin and Elidio Angioletto, Application of ozone on rice storage: A mathematical modeling of the ozone spread, effects in the decontamination of filamentous fungi and quality attributes, Journal of Stored Products Research, 10.1016/j.jspr.2020.101605, 87, (101605), (2020).
Sabelo Shezi, Lembe Samukelo Magwaza, Asanda Mditshwa and Samson Zeray Tesfay, Changes in biochemistry of fresh produce in response to ozone postharvest treatment, Scientia Horticulturae, 10.1016/j.scienta.2020.109397, 269, (109397), (2020).
Simona Paulikienė, Algirdas Raila, Renata Žvirdauskienė and Egidijus Zvicevičius, Application of an environmentally friendly preventive measure for the preservation of fresh vegetables, Journal of Food Science and Technology, 10.1007/s13197-019-03696-8, (2019).
Li-Zhen Deng, Arun S. Mujumdar, Zhongli Pan, Sriram K. Vidyarthi, Jinwen Xu, Magdalena Zielinska and Hong-Wei Xiao, Emerging chemical and physical disinfection technologies of fruits and vegetables: a comprehensive review, Critical Reviews in Food Science and Nutrition, 10.1080/10408398.2019.1649633, (1-28), (2019).
Lakshmi Prasanna Lingamdinne, Jong-Soo Choi, Yu-Lim Choi, Jae-Kyu Yang, Janardhan Reddy Koduru and Yoon-Young Chang, Green Activated Magnetic Graphitic Carbon Oxide and Its Application for Hazardous Water Pollutants Removal, Metals, 10.3390/met9090935, 9, 9, (935), (2019).
Kulal Rajashri, Bommanahalli Shivegowda Roopa, Pradeep Singh Negi and Navin Kumar Rastogi, Effect of ozone and ultrasound treatments on polyphenol content, browning enzyme activities, and shelf life of tender coconut water, Journal of Food Processing and Preservation, 44, 3, (2019).
D. Zhou, Z. Wang, S. Tu, S. Chen, J. Peng and K. Tu, Effects of cold plasma, UV‐C or aqueous ozone treatment on Botrytis cinerea and their potential application in preserving blueberry, Journal of Applied Microbiology, 127, 1, (175-185), (2019).
KAZUYUKI HIRAI, NAOKI ANDO, HIROSHI KOMADA, ATSUO SOUNAI, MICHIYA MURAKAMI and HIRONOBU NAKAYAMA, Investigation of the Effective Concentration of Ozonated Water for Disinfection in the Presence of Protein Contaminants, Biocontrol Science, 10.4265/bio.24.155, 24, 3, (155-160), (2019).
Ewa Pietrysiak, Stephanie Smith and Girish M Ganjyal, Food Safety Interventions to Control Listeria monocytogenes in the Fresh Apple Packing Industry: A Review, Comprehensive Reviews in Food Science and Food Safety, 18, 6, (1705-1726), (2019).
Anna Maria Vettraino, Leonardo Bianchini, Valentina Caradonna, Roberto Forniti, Valentina Goffi, Marta Zambelli, Antonino Testa, Vittorio Vinciguerra and Rinaldo Botondi, Ozone gas as a storage treatment to control Gnomoniopsis castanea, preserving chestnut quality, Journal of the Science of Food and Agriculture, 99, 13, (6060-6065), (2019).
Ian Watson, Prashant Kamble, Callum Shanks, Zakir Khan and Nada El Darra, Decontamination of chilli flakes in a fluidized bed using combined technologies: Infrared, UV and ozone, Innovative Food Science & Emerging Technologies, 10.1016/j.ifset.2019.102248, (102248), (2019).
CARMEN CANO, YULIE MENESES and BYRON D. CHAVES, Ozone-Based Interventions To Improve the Microbiological Safety and Quality of Poultry Carcasses and Parts: A Review, Journal of Food Protection, 10.4315/0362-028X.JFP-18-489, 82, 6, (940-947), (2019).
E.J. Rifna, K. Ratish Ramanan and R. Mahendran, Emerging technology applications for improving seed germination, Trends in Food Science & Technology, 10.1016/j.tifs.2019.02.029, (2019).
Sumariyah, A Khuriati, E Fachriyah and S H Pratiwi, Determination of ion wind velocity using the method of characteristics (MOC) and its application for drying of black turmeric ( Curcuma aeruginosa Roxb ) slices , Journal of Physics: Conference Series, 10.1088/1742-6596/1217/1/012025, 1217, (012025), (2019).
Nikhil Kumar Mahnot, Charu Lata Mahanta, Kevin M Keener and N.N. Misra, Strategy to achieve a 5-log Salmonella inactivation in tender coconut water using high voltage atmospheric cold plasma (HVACP), Food Chemistry, 10.1016/j.foodchem.2019.01.084, (2019).
Zhenghong Guo, Zuoming Wang, Yingdong Li and Quanxi Wang, Effect of Different Concentrations of Ozone on in Vitro Plant Pathogens Development, Tomato Yield and Quality, Photosynthetic Activity and Enzymatic Activities, Ozone: Science & Engineering, 10.1080/01919512.2019.1591268, (1-10), (2019).
Lin Wang, Xuetong Fan, Kimberly Sokorai and Joseph Sites, Quality deterioration of grape tomato fruit during storage after treatments with gaseous ozone at conditions that significantly reduced populations of Salmonella on stem scar and smooth surface, Food Control, 10.1016/j.foodcont.2019.03.026, (2019).
Amreeta Sarjit, Joshua T. Ravensdale, Ranil Coorey, Narelle Fegan and Gary A. Dykes, Salmonella response to physical interventions employed in red meat processing facilities, Food Control, 10.1016/j.foodcont.2019.03.038, (2019).
Poliana Mendes de Souza, Regiane de Melo, Miriam Aparecida de Aguilar Santos, Fabiana Regina Lima and Kássia Héllen Vieira, Risk Management of Egg and Egg Products: Advanced Methods Applied, Food Engineering [Working Title], 10.5772/intechopen.82691, (2019).
Simone Maria Menegatti de Oliveira, Newton Soares da Silva, Ana Sene, Rinaldo Ferreira Gandra, Daniele Schaab Boff Junges, Marco Antonio Ramirez Ramos and Lucia Vieira, Comparative Study of Candida albicans Inactivation by Nonthermal Plasma on Stainless Steel with and without Diamond-like Carbon Film , ACS Omega, 10.1021/acsomega.8b03640, 4, 4, (6891-6902), (2019).
Longgang Tao, Zhiqiang Zhang, Pengjing Chen, Guofeng Zhao, Ye Liu and Yong Lu, Thin-felt Al-fiber-structured Pd-Co-MnOx/Al2O3 catalyst with high moisture resistance for high-throughput O3 decomposition, Applied Surface Science, 10.1016/j.apsusc.2019.03.134, 481, (802-810), (2019).
Shaohua Lin, Cunkun Chen, Hongxia Luo, Wentao Xu, Huijie Zhang, JingJing Tian, Ronghui Ju and Liqiong Wang, The combined effect of ozone treatment and polyethylene packaging on postharvest quality and biodiversity of Toona sinensis (A.Juss.) M.Roem, Postharvest Biology and Technology, 10.1016/j.postharvbio.2019.04.010, 154, (1-10), (2019).
Pankaj B. Pathare, Anthony Paul Roskilly and Sandeep Jagtap, Energy Efficiency in Meat Processing, Novel Technologies and Systems for Food Preservation, 10.4018/978-1-5225-7894-9.ch004, (78-107), (2019).
M.V.A. Silva, L.R.A. Faroni, A.H. Sousa, L.H.F. Prates and A.O. Abreu, Kinetics of the ozone gas reaction in popcorn kernels, Journal of Stored Products Research, 10.1016/j.jspr.2019.06.014, 83, (168-175), (2019).
Xinyi E, Beibei Li and Bhadriraju Subramanyam, Efficacy of ozone against adults and immature stages of phosphine susceptible and resistant strains of Rhyzopertha dominica, Journal of Stored Products Research, 10.1016/j.jspr.2019.06.004, 83, (110-116), (2019).
Marcus Vinicius de Assis Silva, Márcio Aredes Martins, Leda Rita D'Antonino Faroni, Jaime Daniel Bustos Vanegas and Adalberto Hipólito de Sousa, CFD modelling of diffusive-reactive transport of ozone gas in rice grains, Biosystems Engineering, 10.1016/j.biosystemseng.2018.12.010, 179, (49-58), (2019).
Kristen E. Gibson, Giselle Almeida, Sarah L. Jones, Kacy Wright and Jung Ae Lee, Inactivation of bacteria on fresh produce by batch wash ozone sanitation, Food Control, 10.1016/j.foodcont.2019.106747, (106747), (2019).
Campayo, K. Serrano de la Hoz, M.M. García-Martínez, J.F. Sánchez-Martínez, M.R. Salinas and G.L. Alonso, Spraying ozonated water on Bobal grapevines: Effect on grape quality, Food Research International, 10.1016/j.foodres.2019.108540, (108540), (2019).
Hang Qi, Qingguo Huang and Yen-Con Hung, Efficacy of activated persulfate in pathogen inactivation: A further exploration, Food Research International, 10.1016/j.foodres.2019.03.012, (2019).
Benjamin G. Rodriguez-Mendez, Alma Neli Hernandez-Arias, Regulo Lopez-Callejas, Antonio Mercado-Cabrera, Bethsabet Jaramillo-Sierra, Rosendo Pena-Eguiluz, Raul Valencia-Alvarado, Arturo Eduardo Munoz-Castro, Thelma Falcon-Barcenas and David Alcantara-Diaz, Inactivation of Bacillus Subtilis in Water by Direct and Indirect Nonthermal Plasma Treatments , IEEE Transactions on Plasma Science, 10.1109/TPS.2019.2908781, 47, 5, (2620-2628), (2019).
Jae-Suk Choi, Strategies for Rot Control of Soybean Sprouts, Recent Patents on Food, Nutrition & Agriculture, 10.2174/2212798410666181116121957, 10, 2, (93-105), (2019).
Mehrdad Niakousari, Sara Hedayati, Zahra Tahsiri and Hamide Mirzaee, Overview on the Food Industry and Its Advancement, Food Tech Transitions, 10.1007/978-3-030-21059-5_2, (23-47), (2019).
Shiv Shankar, Faustine Danneels and Monique Lacroix, Coating with alginate containing a mixture of essential oils and citrus extract in combination with ozonation or gamma irradiation increased the shelf life of Merluccius sp. fillets, Food Packaging and Shelf Life, 10.1016/j.fpsl.2019.100434, 22, (100434), (2019).
E. Torlak, Use of gaseous ozone for reduction of ochratoxin A and fungal populations on sultanas, Australian Journal of Grape and Wine Research, 25, 1, (25-29), (2018).
Stefania Marcia de Oliveira Souza, Ernandes Rodrigues de Alencar, Jaqueline Lamounier Ribeiro and Marcia de Aguiar Ferreira, Inactivation of Escherichia coli O157:H7 by ozone in different substrates, Brazilian Journal of Microbiology, 10.1007/s42770-018-0025-2, 50, 1, (247-253), (2018).
Shan Wang, Jiayi Wang, Tianyu Wang, Chen Li and Zhaoxia Wu, Effects of ozone treatment on pesticide residues in food: a review, International Journal of Food Science & Technology, 54, 2, (301-312), (2018).
Samira Nahim-Granados, Gracia Rivas-Ibáñez, José Antonio Sánchez Pérez, Isabel Oller, Sixto Malato and María Inmaculada Polo-López, Synthetic fresh-cut wastewater disinfection and decontamination by ozonation at pilot scale, Water Research, 10.1016/j.watres.2019.115304, (115304), (2019).
Vasileios Englezos, Kalliopi Rantsiou, Francesco Cravero, Fabrizio Torchio, Simone Giacosa, Susana Río Segade, Guglielmo Gai, Enrico Dogliani, Vincenzo Gerbi, Luca Cocolin and Luca Rolle, Minimizing the environmental impact of cleaning in winemaking industry by using ozone for cleaning-in-place (CIP) of wine bottling machine, Journal of Cleaner Production, 10.1016/j.jclepro.2019.06.097, (2019).
Fátima A. Miller, Joana F. Fundo, Cristina L. M. Silva and Teresa R. S. Brandão, Physicochemical and Bioactive Compounds of ‘Cantaloupe’ Melon: Effect of Ozone Processing on Pulp and Seeds, Ozone: Science & Engineering, 10.1080/01919512.2017.1414582, 40, 3, (209-215), (2018).
Adrien Brié, Nicolas Boudaud, Annabelle Mssihid, Julie Loutreul, Isabelle Bertrand and Christophe Gantzer, Inactivation of murine norovirus and hepatitis A virus on fresh raspberries by gaseous ozone treatment, Food Microbiology, 10.1016/j.fm.2017.08.010, 70, (1-6), (2018).
Onyinye Ezeh, Masni M. Yusoff and Keshavan Niranjan, Nonthermal processing technologies for fabrication of microstructures to enhance food quality and stability, Food Microstructure and Its Relationship with Quality and Stability, 10.1016/B978-0-08-100764-8.00012-5, (239-274), (2018).
Sangamithra Asokapandian, Suganya Periasamy and Gabriela John Swamy, Ozone for Fruit Juice Preservation, Fruit Juices, 10.1016/B978-0-12-802230-6.00025-4, (511-527), (2018).
Barbara Cisterna, Federico Boschi, Anna C. Croce, Rachele Podda, Serena Zanzoni, Daniele Degl’Innocenti, Paolo Bernardi, Manuela Costanzo, Pasquina Marzola, Viviana Covi, Gabriele Tabaracci and Manuela Malatesta, Ozone Treatment of Grapes During Withering for Amarone Wine: A Multimodal Imaging and Spectroscopic Analysis, Microscopy and Microanalysis, 10.1017/S1431927618015209, 24, 05, (564-573), (2018).
Manal H. G. Kanaan, Antibacterial effect of ozonated water against methicillin-resistant Staphylococcus aureus contaminating chicken meat in Wasit Province, Iraq, Veterinary World, 10.14202/vetworld.2018.1445-1453, 11, 10, (1445-1453), (2018).
Ryota YAMASAKI, Yoshiyuki TAKATSUJI, Masayuki MORIMOTO, Tatsuya SAKAKURA, Keishi MATSUO and Tetsuya HARUYAMA, Green Surface Cleaning in a Radical Vapor Reactor to Remove Organic Fouling on a Substrate, Electrochemistry, 10.5796/electrochemistry.18-00036, (2018).
Zeynep Girgin Ersoy, Sibel Barisci and Ozge Turkay, Mechanisms of the Escherichia coli and Enterococcus faecalis inactivation by ozone, LWT, 10.1016/j.lwt.2018.10.095, (2018).
Govindaraj Dev Kumar and Sadhana Ravishankar, Ozonized Water with Plant Antimicrobials: An Effective Method to Inactivate Salmonella enterica on Iceberg Lettuce in the Produce Wash Water, Environmental Research, 10.1016/j.envres.2018.11.023, (2018).
Bhaswati Choudhury, Sherlie Portugal, Navya Mastanaiah, Judith A. Johnson and Subrata Roy, Inactivation of Pseudomonas aeruginosa and Methicillin-resistant Staphylococcus aureus in an open water system with ozone generated by a compact, atmospheric DBD plasma reactor, Scientific Reports, 10.1038/s41598-018-36003-0, 8, 1, (2018).
Karol Ulatowski, Paweł Sobieszuk, Andrzej Mróz and Tomasz Ciach, Stability of nanobubbles generated in water using porous membrane system, Chemical Engineering and Processing - Process Intensification, 10.1016/j.cep.2018.12.010, (2018).
Zainuri, Jayaputra, A Sauqi, T Sjah and R Y Desiana, Combination of ozone and packaging treatments maintained the quality and improved the shelf life of tomato fruit, IOP Conference Series: Earth and Environmental Science, 10.1088/1755-1315/102/1/012027, 102, (012027), (2018).
Jyun-Wei Yu, Guo-Bin Jung, Chi-Wen Chen, Chia-Chen Yeh, Xuan-Vien Nguyen, Chia-Ching Ma, Chung-Wei Hsieh and Cheng-Lung Lin, Innovative anode catalyst designed to reduce the degradation in ozone generation via PEM water electrolysis, Renewable Energy, 10.1016/j.renene.2017.04.028, 129, (800-805), (2018).
Itzel Covarrubias-García, Aitor Aizpuru and Sonia Arriaga, Temporal and longitudinal biofilm matrix analysis of a biofilter treating ethyl acetate during ozonation, Environmental Science and Pollution Research, 10.1007/s11356-018-2084-1, 25, 19, (19155-19166), (2018).
Fan Zhu, Effect of ozone treatment on the quality of grain products, Food Chemistry, 10.1016/j.foodchem.2018.05.047, 264, (358-366), (2018).
Alexandros Ch Stratakos and Irene R. Grant, Evaluation of the efficacy of multiple physical, biological and natural antimicrobial interventions for control of pathogenic Escherichia coli on beef, Food Microbiology, 10.1016/j.fm.2018.05.011, 76, (209-218), (2018).
R Andoyo, I A P Prawitasari, E Mardawati, Y Cahyana, E Sukarminah, T Rialita, M Djali, Zaida, I Hanidah and I S Setiasih, Retention time of ozone at various water condition, Journal of Physics: Conference Series, 10.1088/1742-6596/1080/1/012033, 1080, (012033), (2018).
Behnoush Maherani, Samia Ayari and Monique Lacroix, The Use of Natural Antimicrobials Combined with Nonthermal Treatments To Control Human Pathogens, Natural and Bio-Based Antimicrobials for Food Applications, 10.1021/bk-2018-1287.ch008, (149-169), (2018).
Francesco Cravero, Vasileios Englezos, Kalliopi Rantsiou, Fabrizio Torchio, Simone Giacosa, Susana Río Segade, Vincenzo Gerbi, Luca Rolle and Luca Cocolin, Control of Brettanomyces bruxellensis on wine grapes by post-harvest treatments with electrolyzed water, ozonated water and gaseous ozone, Innovative Food Science & Emerging Technologies, 10.1016/j.ifset.2018.03.017, 47, (309-316), (2018).
Ana Flávia A. Oliveira, Josiana M. Mar, Samara F. Santos, Joel L. da Silva Júnior, Ariane M. Kluczkovski, Amr M. Bakry, Jaqueline de Araújo Bezerra, Rita de Cássia Saraiva Nunomura, Edgar A. Sanches and Pedro H. Campelo, Non-thermal combined treatments in the processing of açai ( Euterpe oleracea ) juice, Food Chemistry, 10.1016/j.foodchem.2018.05.081, 265, (57-63), (2018).
Zelong ZHANG, Jie SHEN, Cheng CHENG, Zimu XU and Weidong XIA, Generation of reactive species in atmospheric pressure dielectric barrier discharge with liquid water, Plasma Science and Technology, 10.1088/2058-6272/aaa437, 20, 4, (044009), (2018).
Joana F. Fundo, Fátima A. Miller, Andréia Tremarin, Ester Garcia, Teresa R.S. Brandão and Cristina L.M. Silva, Quality assessment of Cantaloupe melon juice under ozone processing, Innovative Food Science & Emerging Technologies, 10.1016/j.ifset.2018.04.016, 47, (461-466), (2018).
Tan Lian See, Ahmad Zulazlan Shah Zulkifli and Lim Mook Tzeng, Application of Response Surface Methodology for characterization of ozone production from Multi-Cylinder Reactor in non-thermal plasma device, IOP Conference Series: Materials Science and Engineering, 10.1088/1757-899X/342/1/012087, 342, (012087), (2018).
Suian José Granella, Divair Christ, Ivan Werncke, Taise Raquel Bechlin and Silvia Renata Machado Coelho, Effect of drying and ozonation process on naturally contaminated wheat seeds, Journal of Cereal Science, 10.1016/j.jcs.2018.03.003, 80, (205-211), (2018).
David F. Bridges, Bhargavi Rane and Vivian C.H. Wu, The effectiveness of closed-circulation gaseous chlorine dioxide or ozone treatment against bacterial pathogens on produce, Food Control, 10.1016/j.foodcont.2018.04.004, 91, (261-267), (2018).
Alma Fernanda Sánchez-Maldonado, Alvin Lee and Jeffrey M. Farber, Methods for the Control of Foodborne Pathogens in Low-Moisture Foods, Annual Review of Food Science and Technology, 10.1146/annurev-food-030117-012304, 9, 1, (177-208), (2018).
Maria Aponte, Aniello Anastasio, Raffaele Marrone, Raffaelina Mercogliano, Maria Francesca Peruzy and Nicoletta Murru, Impact of gaseous ozone coupled to passive refrigeration system to maximize shelf-life and quality of four different fresh fish products, LWT, 10.1016/j.lwt.2018.03.073, 93, (412-419), (2018).
Gabriela M. Jaramillo Sánchez, Analia B. Garcia Loredo, Eunice V. Contigiani, Paula L. Gómez and Stella M. Alzamora, Inactivation kinetics of peroxidase and polyphenol oxidase in peach juice treated with gaseous ozone, International Journal of Food Science & Technology, 53, 2, (347-355), (2017).
R. Guzzon, E. Franciosi, S. Moser, I. Carafa and R. Larcher, Application of ozone during grape drying for the production of straw wine. Effects on the microbiota and compositive profile of grapes, Journal of Applied Microbiology, 125, 2, (513-527), (2018).
Andreas A. Panou, Ioannis K. Karabagias and Kyriakos A. Riganakos, The effect of different gaseous ozone treatments on physicochemical characteristics and shelf life of apricots stored under refrigeration, Journal of Food Processing and Preservation, 42, 5, (2018).
Pradeep Puligundla and Chulkyoon Mok, Packaging for new and emerging food processing technology, Packaging for Nonthermal Processing of Food, (121-158), (2018).
Vijay Yadav Tokala, Zora Singh and Alan D. Payne, Postharvest Uses of Ozone Application in Fresh Horticultural Produce, Postharvest Biology and Nanotechnology, (129-170), (2018).
Mauro Toti, Cristian Carboni and Rinaldo Botondi, Postharvest gaseous ozone treatment enhances quality parameters and delays softening in cantaloupe melon during storage at 6 °C, Journal of the Science of Food and Agriculture, 98, 2, (487-494), (2017).
Martha Kazi, Foteini F Parlapani, Ioannis S Boziaris, Evangelos K Vellios and Christos Lykas, Effect of ozone on the microbiological status of five dried aromatic plants, Journal of the Science of Food and Agriculture, 98, 4, (1369-1373), (2017).
Chiu-Hsien Wu, Kai-Wei Chang, Yu-Ning Li, Zu-Yin Deng, Kuen-Lin Chen, Chien-Chung Jeng, Ren-Jang Wu and Jau-Han Chen, Improving the sensitive and selective of trace amount ozone sensor on Indium-Gallium-Zinc Oxide thin film by ultraviolet irradiation, Sensors and Actuators B: Chemical, 10.1016/j.snb.2018.07.075, 273, (1713-1718), (2018).
K. Murray, P. Moyer, F. Wu, J. B. Goyette and K. Warriner, Inactivation of Listeria monocytogenes on and within Apples Destined for Caramel Apple Production by Using Sequential Forced Air Ozone Gas Followed by a Continuous Advanced Oxidative Process Treatment , Journal of Food Protection, 10.4315/0362-028X.JFP-17-306, 81, 3, (357-364), (2018).
SOFRONI EGLEZOS and GARY A. DYKES, Reduction of Environmental Listeria Using Gaseous Ozone in a Cheese Processing Facility , Journal of Food Protection, 10.4315/0362-028X.JFP-17-361, 81, 5, (795-798), (2018).
Intan Zahar, Yuliani Yuliani, Eko Yulianto, Meliza Meliza, Ade Ika Susan, Sumariyah Sumariyah and Muhammad Nur, Determination of ozone distribution in fish cold storage dedicated plasma ozone technology , MATEC Web of Conferences, 10.1051/matecconf/201819702005, 197, (02005), (2018).
A I Susan, E Sasmita, E Yulianto, F Arianto, M Restiwijaya, A W Kinandana and M Nur, Ozone application to extend shelf life of vegetables by microbial growth inhibition, MATEC Web of Conferences, 10.1051/matecconf/201819702004, 197, (02004), (2018).
Bellincontro, C. Catelli, R. Cotarella and F. Mencarelli, Postharvest ozone fumigation of Petit Verdot grapes to prevent the use of sulfites and to increase anthocyanin in wine, Australian Journal of Grape and Wine Research, 23, 2, (200-206), (2017).
Barbara Speranza and Maria Rosaria Corbo, The Impact of Biofilms on Food Spoilage, The Microbiological Quality of Food, 10.1016/B978-0-08-100502-6.00014-5, (259-282), (2017).
Ioanna N. Gertzou, Ioannis K. Karabagias, Panagiotis E. Drosos and Kyriakos A. Riganakos, Effect of combination of ozonation and vacuum packaging on shelf life extension of fresh chicken legs during storage under refrigeration, Journal of Food Engineering, 10.1016/j.jfoodeng.2017.06.026, 213, (18-26), (2017).
Bhadriraju Subramanyam, E. Xinyi, Sara Savoldelli and Blossom Sehgal, Efficacy of ozone against Rhyzopertha dominica adults in wheat, Journal of Stored Products Research, 10.1016/j.jspr.2016.12.002, 70, (53-59), (2017).
Yoshiyuki Takatsuji, Shoko Ishikawa and Tetsuya Haruyama, Efficient sterilization using reactive oxygen species generated by a radical vapor reactor, Process Biochemistry, 10.1016/j.procbio.2017.01.002, 54, (140-143), (2017).
Mustafa Erkan and Işılay Yıldırım, Postharvest Quality and Safety of Fresh-Cut Vegetables, Minimally Processed Refrigerated Fruits and Vegetables, 10.1007/978-1-4939-7018-6_8, (271-326), (2017).
Wallas Felippe de Souza Ferreira, Ernandes Rodrigues de Alencar, Hanna Alves, Jaqueline Lamounier Ribeiro and Caroline Rosa da Silva, Influence of pH on the efficacy of ozonated water to control microorganisms and its effect on the quality of stored strawberries (Fragaria x ananassa Duch.), Ciência e Agrotecnologia, 10.1590/1413-70542017416013317, 41, 6, (692-700), (2017).
Corliss A. O’Bryan, Steven C. Ricke and Philip G. Crandall, Chemical and Physical Sanitation and Pasteurization Methods for Intact Shell Eggs, Producing Safe Eggs, 10.1016/B978-0-12-802582-6.00018-5, (373-390), (2017).
R. Pandiselvam, S. Sunoj, M. R. Manikantan, Anjineyulu Kothakota and K. B. Hebbar, Application and Kinetics of Ozone in Food Preservation, Ozone: Science & Engineering, 10.1080/01919512.2016.1268947, 39, 2, (115-126), (2016).
Chen Zhang, Yingfeng Xu, Ping Lu, Xiaohua Zhang, Fangfang Xu and Jianlin Shi, Capillary Effect-Enabled Water Electrolysis for Enhanced Electrochemical Ozone Production by Using Bulk Porous Electrode, Journal of the American Chemical Society, 10.1021/jacs.7b07705, 139, 46, (16620-16629), (2017).
Asma Jamil, Shaukat Farooq and Imran Hashmi, Ozone Disinfection Efficiency for Indicator Microorganisms at Different pH Values and Temperatures, Ozone: Science & Engineering, 10.1080/01919512.2017.1322489, 39, 6, (407-416), (2017).
Antonio Morata, Iris Loira, Ricardo Vejarano, Carmen González, María Jesús Callejo and José Antonio Suárez-Lepe, Emerging preservation technologies in grapes for winemaking, Trends in Food Science & Technology, 10.1016/j.tifs.2017.06.014, 67, (36-43), (2017).
Pieter Van Aken, Rob Van den Broeck, Jan Degrève and Raf Dewil, A pilot-scale coupling of ozonation and biodegradation of 2,4-dichlorophenol-containing wastewater: The effect of biomass acclimation towards chlorophenol and intermediate ozonation products, Journal of Cleaner Production, 10.1016/j.jclepro.2017.05.124, 161, (1432-1441), (2017).
Raffaele Guzzon, Ilaria Carafa, Kieran Tuohy, Gonzalo Cervantes, Luca Vernetti, Andrea Barmaz, Roberto Larcher and Elena Franciosi, Exploring the microbiota of the red-brown defect in smear-ripened cheese by 454-pyrosequencing and its prevention using different cleaning systems, Food Microbiology, 10.1016/j.fm.2016.10.018, 62, (160-168), (2017).
Jinying Xi, Feng Zhang, Yun Lu and Hong-Ying Hu, A novel model simulating reclaimed water disinfection by ozonation, Separation and Purification Technology, 10.1016/j.seppur.2017.01.027, 179, (45-52), (2017).
Imran Khan, Charles Nkufi Tango, Sumaira Miskeen, Byong H. Lee and Deog-Hwan Oh, Hurdle technology: A novel approach for enhanced food quality and safety – A review, Food Control, 10.1016/j.foodcont.2016.11.010, 73, (1426-1444), (2017).
Yi Yang, Dan Cheng, Yingnan Li, Ling Yu, Karina Yew-Hoong Gin, Jiaping Paul Chen and Martin Reinhard, Effects of monochloramine and hydrogen peroxide on the bacterial community shifts in biologically treated wastewater, Chemosphere, 10.1016/j.chemosphere.2017.09.087, 189, (399-406), (2017).
Taras Pyatkovskyy, Mykola Shynkaryk, Ahmed Yousef and Sudhir K. Sastry, Reduction of Escherichia coli O157:H7 population on baby spinach leaves by liquid sanitizers, Journal of Food Process Engineering, 40, 3, (2016).
B Velebit, R Petronijević and T Bošković, Non-thermal inactivation of Noroviruses in food, IOP Conference Series: Earth and Environmental Science, 10.1088/1755-1315/85/1/012021, 85, (012021), (2017).
P.J. Fellows, Minimal processing methods, Food Processing Technology, 10.1016/B978-0-08-100522-4.00007-9, (431-512), (2017).
L. Pinto, L. Caputo, L. Quintieri, S. de Candia and F. Baruzzi, Efficacy of gaseous ozone to counteract postharvest table grape sour rot, Food Microbiology, 10.1016/j.fm.2017.05.001, 66, (190-198), (2017).
Nanci Castanha, Manoel Divino da Matta Junior and Pedro Esteves Duarte Augusto, Potato starch modification using the ozone technology, Food Hydrocolloids, 10.1016/j.foodhyd.2016.12.001, 66, (343-356), (2017).
Maria Alessandra Paissoni, Susana Río Segade, Simone Giacosa, Fabrizio Torchio, Francesco Cravero, Vasileios Englezos, Kalliopi Rantsiou, Cristian Carboni, Vincenzo Gerbi, Pierre-Louis Teissedre and Luca Rolle, Impact of post-harvest ozone treatments on the skin phenolic extractability of red winegrapes cv Barbera and Nebbiolo ( Vitis vinifera L.), Food Research International, 10.1016/j.foodres.2016.11.013, 98, (68-78), (2017).
Taras Pyatkovskyy, Mykola Shynkaryk, Ahmed Yousef and Sudhir K. Sastry, Fresh produce sanitization by combination of gaseous ozone and liquid sanitizer, Journal of Food Engineering, 10.1016/j.jfoodeng.2017.03.031, 210, (19-26), (2017).
Perrine Gozé, Larbi Rhazi, Lyès Lakhal, Philippe Jacolot, André Pauss and Thierry Aussenac, Effects of ozone treatment on the molecular properties of wheat grain proteins, Journal of Cereal Science, 10.1016/j.jcs.2017.04.016, 75, (243-251), (2017).
Indu Upadhyaya, Hsin-Bai Yin, Meera Surendran Nair and Kumar Venkitanarayanan, Natural Approaches for Improving Postharvest Safety of Egg and Egg Products, Producing Safe Eggs, 10.1016/B978-0-12-802582-6.00019-7, (391-420), (2017).
Ozan Kahraman, Hyoungill Lee, Wei Zhang and Hao Feng, Manothermosonication (MTS) treatment of apple-carrot juice blend for inactivation of Escherichia coli 0157:H7, Ultrasonics Sonochemistry, 10.1016/j.ultsonch.2016.11.024, 38, (820-828), (2017).
Jinzhu Ma, Caixia Wang and Hong He, Transition metal doped cryptomelane-type manganese oxide catalysts for ozone decomposition, Applied Catalysis B: Environmental, 10.1016/j.apcatb.2016.08.050, 201, (503-510), (2017).
Raffaele Guzzon, Manfred Bernard, Chiara Barnaba, Daniela Bertoldi, Konrad Pixner and Roberto Larcher, The impact of different barrel sanitation approaches on the spoilage microflora and phenols composition of wine, Journal of Food Science and Technology, 10.1007/s13197-017-2527-6, 54, 3, (810-821), (2017).
Zehra Ayhan, Packaging and Preservation Methods of Minimally Processed Produce, Minimally Processed Refrigerated Fruits and Vegetables, 10.1007/978-1-4939-7018-6_7, (239-268), (2017).
Cecilia Jiménez-Sánchez, Jesús Lozano-Sánchez, Antonio Segura-Carretero and Alberto Fernández-Gutiérrez, Alternatives to conventional thermal treatments in fruit-juice processing. Part 1: Techniques and applications, Critical Reviews in Food Science and Nutrition, 10.1080/10408398.2013.867828, 57, 3, (501-523), (2015).
Nikos Tzortzakis and Antonios Chrysargyris, Postharvest ozone application for the preservation of fruits and vegetables, Food Reviews International, 10.1080/87559129.2016.1175015, 33, 3, (270-315), (2016).
Valeria S. Bezerra, Otniel Freitas‐Silva, Leandro Fernandes Damasceno, Alexandra Mara Goulart Nunes Mamede and Lourdes M.C. Cabral, Sensory Analysis and Consumers Studies of Açai Beverage After Thermal, Chlorine and Ozone Treatments of the Fruits, Journal of Food Processing and Preservation, 41, 3, (2016).
Ravi Pandiselvam, Veerapandian Chandrasekar and Venkatachalam Thirupathi, Numerical simulation of ozone concentration profile and flow characteristics in paddy bulks, Pest Management Science, 73, 8, (1698-1702), (2017).
Dominique Turck, Jean‐Louis Bresson, Barbara Burlingame, Tara Dean, Susan Fairweather‐Tait, Marina Heinonen, Karen Ildico Hirsch‐Ernst, Inge Mangelsdorf, Harry J McArdle, Androniki Naska, Monika Neuhäuser‐Berthold, Grażyna Nowicka, Kristina Pentieva, Yolanda Sanz, Anders Sjödin, Martin Stern, Daniel Tomé, Henk Van Loveren, Marco Vinceti, Peter Willatts, Ambroise Martin, John Joseph Strain and Alfonso Siani, Vibigaba (germinated brown rice) and reduction of body weight in the context of an energy‐restricted diet: evaluation of a health claim pursuant to Article 13(5) of Regulation (EC) No 1924/2006, EFSA Journal, 15, 7, (2017).
Alicja Mortensen, Fernando Aguilar, Riccardo Crebelli, Alessandro Di Domenico, Maria Jose Frutos, Pierre Galtier, David Gott, Ursula Gundert‐Remy, Claude Lambré, Jean‐Charles Leblanc, Oliver Lindtner, Peter Moldeus, Pasquale Mosesso, Agneta Oskarsson, Dominique Parent‐Massin, Ivan Stankovic, Ine Waalkens‐Berendsen, Rudolf Antonius Woutersen, Matthew Wright, Maged Younes, Leon Brimer, Anna Christodoulidou, Federica Lodi, Petra Gelgelova and Birgit Dusemund, Re‐evaluation of xanthan gum (E 415) as a food additive, EFSA Journal, 15, 7, (2017).
Dominique Turck, Jean‐Louis Bresson, Barbara Burlingame, Tara Dean, Susan Fairweather‐Tait, Marina Heinonen, Karen Ildico Hirsch‐Ernst, Inge Mangelsdorf, Harry J McArdle, Androniki Naska, Monika Neuhäuser‐Berthold, Grażyna Nowicka, Kristina Pentieva, Yolanda Sanz, Anders Sjödin, Martin Stern, Daniel Tomé, Henk Van Loveren, Marco Vinceti, Peter Willatts, Ambroise Martin, John Joseph Strain and Alfonso Siani, Vibigaba (germinated brown rice) and maintenance of long‐term normal blood glucose concentration: evaluation of a health claim pursuant to Article 13(5) of Regulation (EC) No 1924/2006, EFSA Journal, 15, 7, (2017).
Dominique Turck, Jean‐Louis Bresson, Barbara Burlingame, Tara Dean, Susan Fairweather‐Tait, Marina Heinonen, Karen Ildico Hirsch‐Ernst, Inge Mangelsdorf, Harry J McArdle, Androniki Naska, Monika Neuhäuser‐Berthold, Grażyna Nowicka, Kristina Pentieva, Yolanda Sanz, Martin Stern, Daniel Tomé, Henk Van Loveren, Marco Vinceti, Peter Willatts, Ambroise Martin, John Joseph Strain and Alfonso Siani, Lactobacillus fermentum CECT 5716 and a reduction of the Staphylococcus load in breast milk which reduces the risk of infectious mastitis: evaluation of a health claim pursuant to Article 14 of Regulation (EC) No 1924/2006, EFSA Journal, 15, 7, (2017).
Antonia Ricci, Ana Allende, Declan Bolton, Marianne Chemaly, Robert Davies, Pablo Salvador Fernandez Escamez, Lieve Herman, Kostas Koutsoumanis, Roland Lindqvist, Birgit Nørrung, Lucy Robertson, Giuseppe Ru, Moez Sanaa, Marion Simmons, Panagiotis Skandamis, Emma Snary, Niko Speybroeck, Benno Ter Kuile, John Threlfall, Helene Wahlström, Ilaria Di Bartolo, Reimar Johne, Nicole Pavio, Saskia Rutjes, Wim der Poel, Petra Vasickova, Michaela Hempen, Winy Messens, Valentina Rizzi, Francesca Latronico and Rosina Girones, Public health risks associated with hepatitis E virus (HEV) as a food‐borne pathogen, EFSA Journal, 15, 7, (2017).
Agnieszka Joanna Brodowska, Agnieszka Nowak and Krzysztof Śmigielski, Ozone in the food industry: Principles of ozone treatment, mechanisms of action, and applications: An overview, Critical Reviews in Food Science and Nutrition, 10.1080/10408398.2017.1308313, 58, 13, (2176-2201), (2017).
Shyam Ramkrishna Garud, Belagola Shivakumar Priyanka, Navin Kumar Rastogi, Maya Prakash and Pradeep Singh Negi, Efficacy of Ozone and Lactic Acid as Nonthermal Hurdles for Preservation of Sugarcane Juice, Ozone: Science & Engineering, 10.1080/01919512.2017.1415802, 40, 3, (198-208), (2017).
László Varga and Jenő Szigeti, Use of ozone in the dairy industry: A review, International Journal of Dairy Technology, 69, 2, (157-168), (2016).
Muhammed Yüceer, Mehmet Seçkin Aday and Cengiz Caner, Ozone treatment of shell eggs to preserve functional quality and enhance shelf life during storage, Journal of the Science of Food and Agriculture, 96, 8, (2755-2763), (2015).
Marcin Glowacz and Deborah Rees, The practicality of using ozone with fruit and vegetables, Journal of the Science of Food and Agriculture, 96, 14, (4637-4643), (2016).
Suresh K. Devatkal, Pranita Jaiswal, Amanpreet Kaur and Vijay Juneja, Inactivation of Bacillus cereus and Salmonella enterica serovar typhimurium by Aqueous Ozone: Modeling and UV-Vis Spectroscopic Analysis , Ozone: Science & Engineering, 10.1080/01919512.2015.1079119, 38, 2, (124-132), (2015).
Concepción Romero-Barranco, Pedro García-Serrano, Pedro García-García and Manuel Brenes-Balbuena, Re-use of partially purified iron color fixation solutions using electro-coagulation and ozonation in ripe table olive processing and packaging, Journal of Food Engineering, 10.1016/j.jfoodeng.2016.02.020, 181, (28-34), (2016).
Mehdi Jonoobi, Masood Grami, Alireza Ashori and Ghanbar Ebrahimi, Effect of ozone pretreatment on the physical and mechanical properties of particleboard panels made from bagasse, Measurement, 10.1016/j.measurement.2016.08.019, 94, (451-455), (2016).
Appelgrein, G. Hosgood, A.L. Dunn and O. Schaaf, Ozonated water is inferior to propanol-based hand rubs for disinfecting hands, Journal of Hospital Infection, 10.1016/j.jhin.2015.08.029, 92, 4, (340-343), (2016).
Martin Spanoghe, Olivier Allard, Sebastien Delvoye, Thierry Marique and Michel Van Koninckxloo, Industrial-scale Malting Barley ( Hordeum vulgare L.) Seed Disinfection by Fog of Ozonated Water Application , Ozone: Science & Engineering, 10.1080/01919512.2015.1079118, 38, 2, (115-123), (2015).
Renan Fava Marson, Lívia Helena Moreira da Silva Melo, Renato Amaro Zângaro, Carlos José de Lima and Adriana Barrinha Fernandes, Use of Ozonated Water for Disinfecting Gastrointestinal Endoscopes, Ozone: Science & Engineering, 10.1080/01919512.2016.1192455, 38, 5, (346-351), (2016).
Antonella Costantini, Enrico Vaudano, Maria Carla Cravero, Maurizio Petrozziello, Federico Piano, Attilio Bernasconi and Emilia Garcia-Moruno, Dry ice blasting, a new tool for barrel regeneration treatment, European Food Research and Technology, 10.1007/s00217-016-2667-3, 242, 10, (1673-1683), (2016).
Emrah Torlak, Ilgaz Akata, Fatih Erci and Ali Tevfik Uncu, Use of gaseous ozone to reduce aflatoxin B1 and microorganisms in poultry feed, Journal of Stored Products Research, 10.1016/j.jspr.2016.04.003, 68, (44-49), (2016).
Bozena Lozowicka, Magdalena Jankowska, Izabela Hrynko and Piotr Kaczynski, Removal of 16 pesticide residues from strawberries by washing with tap and ozone water, ultrasonic cleaning and boiling, Environmental Monitoring and Assessment, 10.1007/s10661-015-4850-6, 188, 1, (2015).
Govindaraj Dev Kumar, Robert C. Williams, Susan S. Sumner and Joseph D. Eifert, Effect of ozone and ultraviolet light on Listeria monocytogenes populations in fresh and spent chill brines, Food Control, 10.1016/j.foodcont.2015.04.037, 59, (172-177), (2016).
Yi-wen Lin, Dan Li, April Z. Gu, Si-yu Zeng and Miao He, Bacterial regrowth in water reclamation and distribution systems revealed by viable bacterial detection assays, Chemosphere, 10.1016/j.chemosphere.2015.10.071, 144, (2165-2174), (2016).
Kei Matsui, Noriaki Ikenaga and Noriyuki Sakudo, Effect of Sterilization Process Using Plasma-Excited Neutral Gas on Materials of Medical Instruments, IEEJ Transactions on Sensors and Micromachines, 10.1541/ieejsmas.136.6, 136, 1, (6-11), (2016).
Piotr Dziugan, Maria Balcerek, Michal J. Binczarski, Dorota Kregiel, Marcin Kucner, Alina Kunicka-Styczynska, Katarzyna Pielech-Przybylska, Krzysztof Smigielski and Izabela A. Witonska, Ozonation as an effective way to stabilize new kinds of fermentation media used in biotechnological production of liquid fuel additives, Biotechnology for Biofuels, 10.1186/s13068-016-0574-2, 9, 1, (2016).
Ioanna N. Gertzou, Panagiotis E. Drosos, Ioannis K. Karabagias and Kyriakos A. Riganakos, Combined effect of ozonation and packaging on shelf life extension of fresh chicken legs during storage under refrigeration, Journal of Food Science and Technology, 10.1007/s13197-016-2421-7, 53, 12, (4270-4277), (2016).
A.H. Sousa, L.R.D'A. Faroni, M.A.G. Pimentel, G.N. Silva and R.N.C. Guedes, Ozone toxicity to Sitophilus zeamais (Coleoptera: Curculionidae) populations under selection pressure from ozone, Journal of Stored Products Research, 10.1016/j.jspr.2015.11.001, 65, (1-5), (2016).
Matheus de Almeida Roberto, Ernandes Rodrigues de Alencar, Wallas Felippe de Souza Ferreira, Marcio Antonio Mendonça and Hanna Alves, Saturação do ozônio em coluna contendo grãos de amendoim e efeito na qualidade, Brazilian Journal of Food Technology, 10.1590/1981-6723.5115, 19, 0, (2016).
Yu‐Hsin Pang and Yen‐Con Hung, Efficacy of Slightly Acidic Electrolyzed Water and UV‐Ozonated Water Combination for Inactivating Escherichia Coli O157:H7 on Romaine and Iceberg Lettuce during Spray Washing Process, Journal of Food Science, 81, 7, (M1743-M1748), (2016).
N. Pongprasert, P. Jitareerat and V. Srilaong, A novel technique using ozone micro bubbles to control microbial contamination and browning of fresh-cut lettuce, Acta Horticulturae, 10.17660/ActaHortic.2016.1120.26, 1120, (177-182), (2016).
Ramandeep Garg, Daniela Abela, Brijesh Tiwari and Vasilis Valdramidis, Potential industrial applications of decontamination technologies for fresh produce, Food Hygiene and Toxicology in Ready-to-Eat Foods, 10.1016/B978-0-12-801916-0.00018-2, (313-336), (2016).
Soee Choi, Pradeep Puligundla and Chulkyoon Mok, Corona discharge plasma jet for inactivation of Escherichia coli O157:H7 and Listeria monocytogenes on inoculated pork and its impact on meat quality attributes, Annals of Microbiology, 10.1007/s13213-015-1147-5, 66, 2, (685-694), (2015).
Mykola V. Shynkaryk, Taras I. Pyatkovskyy, Ahmed E. Yousef and Sudhir K. Sastry, Gaseous ozone treatment of baby spinach within the existing production chain for inactivation of Escherichia coli O157:H7, Journal of Food Engineering, 10.1016/j.jfoodeng.2016.06.025, 191, (10-18), (2016).
M. Farizal Kamaroddin, James Hanotu, D. James Gilmour and William B. Zimmerman, In-situ disinfection and a new downstream processing scheme from algal harvesting to lipid extraction using ozone-rich microbubbles for biofuel production, Algal Research, 10.1016/j.algal.2016.05.006, 17, (217-226), (2016).
Francesco Cravero, Vasileios Englezos, Kalliopi Rantsiou, Fabrizio Torchio, Simone Giacosa, Susana Río Segade, Vincenzo Gerbi, Luca Rolle and Luca Cocolin, Ozone treatments of post harvested wine grapes: Impact on fermentative yeasts and wine chemical properties, Food Research International, 10.1016/j.foodres.2016.06.031, 87, (134-141), (2016).
Marcin Glowacz and Deborah Rees, Exposure to ozone reduces postharvest quality loss in red and green chilli peppers, Food Chemistry, 10.1016/j.foodchem.2016.04.119, 210, (305-310), (2016).
S.P. Aubourg, Fish: Processing, Encyclopedia of Food and Health, 10.1016/B978-0-12-384947-2.00290-7, (710-715), (2016).
Nikos Tzortzakis, Ozone: A Powerful Tool for the Fresh Produce Preservation, Postharvest Management Approaches for Maintaining Quality of Fresh Produce, 10.1007/978-3-319-23582-0_11, (175-207), (2016).
Chenghui Liu, Tao Ma, Wenzhong Hu, Mixia Tian and Lu Sun, Effects of aqueous ozone treatments on microbial load reduction and shelf life extension of fresh‐cut apple, International Journal of Food Science & Technology, 51, 5, (1099-1109), (2016).
J. Laureano, S. Giacosa, S. Río Segade, F. Torchio, F. Cravero, V. Gerbi, V. Englezos, C. Carboni, L. Cocolin, K. Rantsiou, L.R.D. Faroni and L. Rolle, Effects of Continuous Exposure to Ozone Gas and Electrolyzed Water on the Skin Hardness of Table and Wine Grape Varieties, Journal of Texture Studies, 47, 1, (40-48), (2015).
Tim Brown, Display of Unwrapped Foods, Sustainable Retail Refrigeration, (81-92), (2016).
GISELLE ALMEIDA and KRISTEN E. GIBSON, Evaluation of a Recirculating Dipper Well Combined with Ozone Sanitizer for Control of Foodborne Pathogens in Food Service Operations, Journal of Food Protection, 10.4315/0362-028X.JFP-16-055, 79, 9, (1537-1548), (2016).
W.‐J. Song, J.‐Y. Shin, S. Ryu and D.‐H. Kang, Inactivation of scherichia coli O157:H7, almonella Typhimurium and isteria monocytogenes in apple juice at different pH levels by gaseous ozone treatment, Journal of Applied Microbiology, 119, 2, (465-474), (2015).
Marcin Glowacz, Richard Colgan and Deborah Rees, The use of ozone to extend the shelf‐life and maintain quality of fresh produce, Journal of the Science of Food and Agriculture, 95, 4, (662-671), (2014).
Marilena Marino, Annalisa Segat, Michela Maifreni, Francesca Frigo, Caterina Sepulcri and Nadia Innocente, Efficacy of ozonation on microbial counts in used brines for cheesemaking, International Dairy Journal, 10.1016/j.idairyj.2015.06.003, 50, (9-14), (2015).
W.‐J. Song, H.‐J. Sung and D.‐H. Kang, Inactivation of scherichia coli O157:H7 and almonella Typhimurium in apple juices with different soluble solids content by combining ozone treatment with mild heat, Journal of Applied Microbiology, 118, 1, (112-122), (2014).
Geovana D. Savi, Karim C. Piacentini and Vildes M. Scussel, Reduction in residues of deltamethrin and fenitrothion on stored wheat grains by ozone gas, Journal of Stored Products Research, 10.1016/j.jspr.2014.12.002, 61, (65-69), (2015).
Charles Odilichukwu R. Okpala, Gioacchino Bono, Abdurahim Abdulkadir and Chukwuka U. Madumelu, Ozone (O3) Process Technology (OPT): An Exploratory Brief of Minimal Ozone Discharge applied to Shrimp Product, Energy Procedia, 10.1016/j.egypro.2015.07.206, 75, (2427-2435), (2015).
MYKOLA V. SHYNKARYK, TARAS PYATKOVSKYY, HUSSEIN M. MOHAMED, AHMED E. YOUSEF and SUDHIR K. SASTRY, Physics of Fresh Produce Safety: Role of Diffusion and Tissue Reaction in Sanitization of Leafy Green Vegetables with Liquid and Gaseous Ozone-Based Sanitizers, Journal of Food Protection, 10.4315/0362-028X.JFP-15-290, 78, 12, (2108-2116), (2015).
QING WANG, SARAH MARKLAND and KALMIA E. KNIEL, Inactivation of Human Norovirus and Its Surrogates on Alfalfa Seeds by Aqueous Ozone, Journal of Food Protection, 10.4315/0362-028X.JFP-15-029, 78, 8, (1586-1591), (2015).
Aziz Homayouni, Aslan Azizi, Ata Khodavirdivand Keshtiban, Amir Amini and Ahad Eslami, Date canning: a new approach for the long time preservation of date, Journal of Food Science and Technology, 10.1007/s13197-014-1291-0, 52, 4, (1872-1880), (2014).
Ashley Predmore, Gabe Sanglay, Jianrong Li and Ken Lee, Control of human norovirus surrogates in fresh foods by gaseous ozone and a proposed mechanism of inactivation, Food Microbiology, 10.1016/j.fm.2015.04.004, 50, (118-125), (2015).
Amrutlal L. Prajapat and Parag R. Gogate, Intensification of degradation of guar gum: Comparison of approaches based on ozone, ultraviolet and ultrasonic irradiations, Chemical Engineering and Processing: Process Intensification, 10.1016/j.cep.2015.09.018, 98, (165-173), (2015).
Ali A. Isikber and Christos G. Athanassiou, The use of ozone gas for the control of insects and micro-organisms in stored products, Journal of Stored Products Research, 10.1016/j.jspr.2014.06.006, 64, (139-145), (2015).
Colette Jermann, Tatiana Koutchma, Edyta Margas, Craig Leadley and Valquiria Ros-Polski, Mapping trends in novel and emerging food processing technologies around the world, Innovative Food Science & Emerging Technologies, 10.1016/j.ifset.2015.06.007, 31, (14-27), (2015).
Romain J.G. Pierron, Marielle Pages, Christel Couderc, Stéphane Compant, Alban Jacques and Frédéric Violleau, In vitro and in planta fungicide properties of ozonated water against the esca-associated fungus Phaeoacremonium aleophilum, Scientia Horticulturae, 10.1016/j.scienta.2015.03.038, 189, (184-191), (2015).
N.N. Misra, The contribution of non-thermal and advanced oxidation technologies towards dissipation of pesticide residues, Trends in Food Science & Technology, 10.1016/j.tifs.2015.06.005, 45, 2, (229-244), (2015).
Rinaldo Botondi, Federica De Sanctis, Niccolò Moscatelli, Anna Maria Vettraino, Cesare Catelli and Fabio Mencarelli, Ozone fumigation for safety and quality of wine grapes in postharvest dehydration, Food Chemistry, 10.1016/j.foodchem.2015.05.029, 188, (641-647), (2015).
Shuiliang Yao, Zuliang Wu, Jingyi Han, Xiujuan Tang, Boqiong Jiang, Hao Lu, Sin Yamamoto and Satoshi Kodama, Study of ozone generation in an atmospheric dielectric barrier discharge reactor, Journal of Electrostatics, 10.1016/j.elstat.2015.03.001, 75, (35-42), (2015).
Marcin Glowacz, Richard Colgan and Deborah Rees, Influence of continuous exposure to gaseous ozone on the quality of red bell peppers, cucumbers and zucchini, Postharvest Biology and Technology, 10.1016/j.postharvbio.2014.06.015, 99, (1-8), (2015).
Hatice Çatal, Effects of Semicontinuous and Batch System Ozonation on Wheat and Corn Starches, Ozone: Science & Engineering, 10.1080/01919512.2014.913472, 37, 1, (71-77), (2015).
Heim, M. Ureña de Vivanco, M. Rajab, E. Müller, T. Letzel and B. Helmreich, Rapid inactivation of waterborne bacteria using boron-doped diamond electrodes, International Journal of Environmental Science and Technology, 10.1007/s13762-014-0722-9, 12, 10, (3061-3070), (2014).
K. Chitravathi, O. P. Chauhan, P. S. Raju and N. Madhukar, Efficacy of Aqueous Ozone and Chlorine in Combination with Passive Modified Atmosphere Packaging on the Postharvest Shelf-Life Extension of Green Chillies (Capsicum annuum L.), Food and Bioprocess Technology, 10.1007/s11947-015-1511-2, 8, 6, (1386-1392), (2015).
Ilgaz Akata, Emrah Torlak and Fatih Erci, Efficacy of gaseous ozone for reducing microflora and foodborne pathogens on button mushroom, Postharvest Biology and Technology, 10.1016/j.postharvbio.2015.06.008, 109, (40-44), (2015).
Mary L. Rasmussen, Jacek A. Koziel, Jay-lin Jane and Anthony L. Pometto, Reducing Bacterial Contamination in Fuel Ethanol Fermentations by Ozone Treatment of Uncooked Corn Mash, Journal of Agricultural and Food Chemistry, 10.1021/acs.jafc.5b00563, 63, 21, (5239-5248), (2015).
Geovana D. Savi, Karim C. Piacentini and Vildes M. Scussel, Ozone Treatment Efficiency in Aspergillus and Penicillium Growth Inhibition and Mycotoxin Degradation of Stored Wheat Grains (Triticum aestivum L.), Journal of Food Processing and Preservation, 39, 6, (940-948), (2014).
Bruno Caillier, José Maurício Almeida Caiut, Cristina Muja, Julien Demoucron, Robert Mauricot, Jeanette Dexpert‐Ghys and Philippe Guillot, Decontamination Efficiency of a DBD Lamp Containing an UV–C Emitting Phosphor, Photochemistry and Photobiology, 91, 3, (526-532), (2015).
Sung-Il Oh, Changes in Quality of ‘Mipung’ Chestnut during Storage by Pre-treatment Methods after Harvest, Journal of Korean Forest Society, 10.14578/jkfs.2015.104.4.558, 104, 4, (558-563), (2015).
Analia B. Garcia Loredo, Sandra N. Guerrero and Stella M. Alzamora, Inactivation kinetics and growth dynamics during cold storage of Escherichia coli ATCC 11229, Listeria innocua ATCC 33090 and Saccharomyces cerevisiae KE162 in peach juice using aqueous ozone, Innovative Food Science & Emerging Technologies, 10.1016/j.ifset.2015.02.007, 29, (271-279), (2015).
Daniela Bermúdez-Aguirre and Gustavo Barbosa-Cánovas, Ozone Applications in Food Processing, Handbook of Food Processing, 10.1201/b19397-21, (691-704), (2015).
Arizbeth Pérez, Tatyana Poznyak and Isaac Chairez, Microorganism Inactivation by Ozone Dissolved in Aqueous Solution: A Kinetic Study Based on Bacterial Culture Lipid Unsaturation, Ozone: Science & Engineering, 10.1080/01919512.2014.917947, 37, 2, (119-126), (2015).
Violeta Pardío-Sedas, Influence of Ozone Depuration on the Physical Properties of Fresh American oysters (Crassostrea virginica), Processing and Impact on Active Components in Food, 10.1016/B978-0-12-404699-3.00055-X, (455-461), (2015).
Nurul A. Alwi and Asgar Ali, Dose-dependent Effect of Ozone Fumigation on Physiological Characteristics, Ascorbic Acid Content and Disease Development on Bell Pepper (Capsicum annuum L.) During Storage, Food and Bioprocess Technology, 10.1007/s11947-014-1419-2, 8, 3, (558-566), (2014).
M. R. Tapia, M. M. Gutierrez-Pacheco, F. J. Vazquez-Armenta, G. A. González Aguilar, J. F. Ayala Zavala, Mohammad Shafiur Rahman and Mohammed Wasim Siddiqui, Washing, Peeling and Cutting of Fresh-Cut Fruits and Vegetables, Minimally Processed Foods, 10.1007/978-3-319-10677-9_4, (57-78), (2014).
Renwu Zhou, Xianhui Zhang, Zhenhua Bi, Zichao Zong, Jinhai Niu, Ying Song, Dongping Liu and Size Yang, Inactivation of Escherichia coli Cells in Aqueous Solution by Atmospheric-Pressure N 2 , He, Air, and O 2 Microplasmas , Applied and Environmental Microbiology, 10.1128/AEM.01287-15, 81, 15, (5257-5265), (2015).
M Yusupov, E C Neyts, P Simon, G Berdiyorov, R Snoeckx, A C T van Duin and A Bogaerts, Reactive molecular dynamics simulations of oxygen species in a liquid water layer of interest for plasma medicine, Journal of Physics D: Applied Physics, 10.1088/0022-3727/47/2/025205, 47, 2, (025205), (2013).
Encarna Aguayo, Víctor Escalona, Ana Cecilia Silveira and Francisco Artés, Quality of tomato slices disinfected with ozonated water, Food Science and Technology International, 10.1177/1082013213482846, 20, 3, (227-235), (2013).
Hye-Jung Sung, Won-Jae Song, Kwang-Pyo Kim, Sangryeol Ryu and Dong-Hyun Kang, Combination effect of ozone and heat treatments for the inactivation of Escherichia coli O157:H7, Salmonella Typhimurium, and Listeria monocytogenes in apple juice, International Journal of Food Microbiology, 10.1016/j.ijfoodmicro.2013.11.001, 171, (147-153), (2014).
Mehmet Seckin Aday and Cengiz Caner, Individual and combined effects of ultrasound, ozone and chlorine dioxide on strawberry storage life, LWT - Food Science and Technology, 10.1016/j.lwt.2014.01.006, 57, 1, (344-351), (2014).
Hatice Çatal and Şenol İbanoğlu, Effect of aqueous ozonation on the pasting, flow and gelatinization properties of wheat starch, LWT - Food Science and Technology, 10.1016/j.lwt.2014.04.025, 59, 1, (577-582), (2014).
Geovana D. Savi and Vildes M. Scussel, Effects of Ozone Gas Exposure on Toxigenic Fungi Species from Fusarium, Aspergillus , and Penicillium Genera , Ozone: Science & Engineering, 10.1080/01919512.2013.846824, 36, 2, (144-152), (2014).
Ratul Saha, Nabaneeta Saha, Atwain Atwain and Robert S. Donofrio, Evaluation of disinfection efficacy of ozone and chlorinated disinfectant against the biofilm of Klebsiella michiganensis and Pseudomonas aeruginosa, Annals of Microbiology, 10.1007/s13213-014-0804-4, 64, 4, (1607-1613), (2014).
Annalisa Segat, N.N. Misra, Astrid Fabbro, Federica Buchini, Giovanna Lippe, Patrick J. Cullen and Nadia Innocente, Effects of ozone processing on chemical, structural and functional properties of whey protein isolate, Food Research International, 10.1016/j.foodres.2014.10.002, 66, (365-372), (2014).
T.L. Wheeler, N. Kalchayanand and J.M. Bosilevac, Pre- and post-harvest interventions to reduce pathogen contamination in the U.S. beef industry, Meat Science, 10.1016/j.meatsci.2014.06.026, 98, 3, (372-382), (2014).
Mauricio E. Martiñon, Rosana G. Moreira, M. Elena Castell-Perez and Carmen Gomes, Development of a multilayered antimicrobial edible coating for shelf-life extension of fresh-cut cantaloupe (Cucumis melo L.) stored at 4 °C, LWT - Food Science and Technology, 10.1016/j.lwt.2013.11.043, 56, 2, (341-350), (2014).
S. Horvitz and M. J. Cantalejo, Application of Ozone for the Postharvest Treatment of Fruits and Vegetables, Critical Reviews in Food Science and Nutrition, 10.1080/10408398.2011.584353, 54, 3, (312-339), (2013).
Huibin Chen, Meiying Wang, Shaojun Chen, Tuanwei Chen and Nengping Huang, Effects of Ozonated Water Treatment on the Microbial Population, Quality, and Shelf Life of Shucked Oysters ( Crassostrea plicatula ) , Journal of Aquatic Food Product Technology, 10.1080/10498850.2012.707761, 23, 2, (175-185), (2014).
S. Koseki, PROCESS HYGIENE | Hygiene in the Catering Industry, Encyclopedia of Food Microbiology, 10.1016/B978-0-12-384730-0.00279-2, (171-175), (2014).
Pedro García-García, Francisco Noé Arroyo-López and Francisco Rodríguez-Gómez, Partial purification of iron solutions from ripe table olive processing using ozone and electro-coagulation, Separation and Purification Technology, 10.1016/j.seppur.2014.06.011, 133, (227-235), (2014).
Mehmet Seçkin Aday, Mehmet Burak Büyükcan, Riza Temizkan and Cengiz Caner, Role of Ozone Concentrations and Exposure Times in Extending Shelf Life of Strawberry, Ozone: Science & Engineering, 10.1080/01919512.2013.833851, 36, 1, (43-56), (2014).
Agnieszka Joanna Brodowska, Krzysztof Śmigielski, Agnieszka Nowak, Katarzyna Brodowska, Rik Catthoor and Agata Czyżowska, The Impact of Ozone Treatment on Changes in Biologically Active Substances of Cardamom Seeds, Journal of Food Science, 79, 9, (C1649-C1655), (2014).
Annalisa Segat, Marialuisa Biasutti, Lucilla Iacumin, Giuseppe Comi, Federico Baruzzi, Cristian Carboni and Nadia Innocente, Use of ozone in production chain of high moisture Mozzarella cheese, LWT - Food Science and Technology, 10.1016/j.lwt.2013.10.029, 55, 2, (513-520), (2014).
S Patil, P Cullen and P Bourke, Ozone, Novel Food Preservation and Microbial Assessment Techniques, 10.1201/b16758-7, (126-154), (2014).
N Misra, Lu Han, B Tiwari, Paula Bourke and P Cullen, Nonthermal Plasma Technology for Decontamination of Foods, Novel Food Preservation and Microbial Assessment Techniques, 10.1201/b16758-8, (155-183), (2014).
S Rakovsky, M Anachkov and G Zaikov, Ozonolysis of Chemical and Biochemical Compounds, Food Composition and Analysis, 10.1201/b16843-18, (299-335), (2014).
TENCON 2014 - 2014 IEEE Region 10 Conference Bangkok, Thailand TENCON 2014 - 2014 IEEE Region 10 Conference IEEE , (2014). 978-1-4799-4075-2 978-1-4799-4076-9 S. Potivejkul, S. Leejongpermpoon, C. Markchun and V. Kinnares A development design of ozone generator with a new helix coil electrode for micro bacterial disinfection in hospitals , (2014).
ANIBAL CONCHA-MEYER, JOSEPH EIFERT, ROBERT WILLIAMS, JOSEPH MARCY and GREGORY WELBAUM, Survival of Listeria monocytogenes on Fresh Blueberries (Vaccinium corymbosum) Stored under Controlled Atmosphere and Ozone, Journal of Food Protection, 10.4315/0362-028X.JFP-13-441, 77, 5, (832-836), (2014).
Wei Keat Yeoh, Asgar Ali and Charles F. Forney, Effects of ozone on major antioxidants and microbial populations of fresh-cut papaya, Postharvest Biology and Technology, 10.1016/j.postharvbio.2013.11.006, 89, (56-58), (2014).
Geovana D. Savi, Karim C. Piacentini, Karol O. Bittencourt and Vildes M. Scussel, Ozone treatment efficiency on Fusarium graminearum and deoxynivalenol degradation and its effects on whole wheat grains (Triticum aestivum L.) quality and germination, Journal of Stored Products Research, 10.1016/j.jspr.2014.03.008, 59, (245-253), (2014).
Pilar Teixeira and Diana Rodrigues, Antibiofilm Strategies in the Food Industry, Antibiofilm Agents, 10.1007/978-3-642-53833-9_16, (359-381), (2014).
Fátima A. Miller, Teresa R.S. Brandão and Cristina L.M. Silva, Ozone Processing, Conventional and Advanced Food Processing Technologies, (617-644), (2014).
Allison Vimont, Ismaïl Fliss and Julie Jean, Inactivation of Foodborne Viruses, Practical Food Safety, (471-495), (2014).
Anbazhagi Muthukumar and Muthukumar Muthuchamy, Optimization of ozone in gaseous phase to inactivate Listeria monocytogenes on raw chicken samples, Food Research International, 10.1016/j.foodres.2012.12.016, 54, 1, (1128-1130), (2013).
Emrah Torlak, Durmuş Sert and Pelin Ulca, Efficacy of gaseous ozone against Salmonella and microbial population on dried oregano, International Journal of Food Microbiology, 10.1016/j.ijfoodmicro.2013.05.030, 165, 3, (276-280), (2013).
Sweta Swaraj, Rajesh Kumar, Y.V. Harinath and Toleti Subba Rao, Biocidal Efficacy of Ozone and Chlorine on Planktonic and Biofilm Cells of Two Marine Bacteria Species, Ozone: Science & Engineering, 10.1080/01919512.2013.759841, 35, 2, (90-100), (2013).
Kompal Joshi, R. Mahendran, K. Alagusundaram, T. Norton and B.K. Tiwari, Novel disinfectants for fresh produce, Trends in Food Science & Technology, 10.1016/j.tifs.2013.08.008, 34, 1, (54-61), (2013).
Lise Stengaard Hansen, Peer Hansen and Karl-Martin Vagn Jensen, Effect of gaseous ozone for control of stored product pests at low and high temperature, Journal of Stored Products Research, 10.1016/j.jspr.2013.05.003, 54, (59-63), (2013).
Alexopoulos, S. Plessas, S. Ceciu, V. Lazar, I. Mantzourani, C. Voidarou, E. Stavropoulou and E. Bezirtzoglou, Evaluation of ozone efficacy on the reduction of microbial population of fresh cut lettuce (Lactuca sativa) and green bell pepper (Capsicum annuum), Food Control, 10.1016/j.foodcont.2012.09.018, 30, 2, (491-496), (2013).
C A J van Gils, S Hofmann, B K H L Boekema, R Brandenburg and P J Bruggeman, Mechanisms of bacterial inactivation in the liquid phase induced by a remote RF cold atmospheric pressure plasma jet, Journal of Physics D: Applied Physics, 10.1088/0022-3727/46/17/175203, 46, 17, (175203), (2013).
Caroline Goodburn and Carol A. Wallace, The microbiological efficacy of decontamination methodologies for fresh produce: A review, Food Control, 10.1016/j.foodcont.2012.12.012, 32, 2, (418-427), (2013).
R. Guzzon, T. Nardin, O. Micheletti, G. Nicolini and R. Larcher, Antimicrobial activity of ozone. Effectiveness against the main wine spoilage microorganisms and evaluation of impact on simple phenols in wine, Australian Journal of Grape and Wine Research, 19, 2, (180-188), (2013).
Anca M. Galiş, Christopher Marcq, Didier Marlier, Daniel Portetelle, Ilie Van, Yves Beckers and André Théwis, Control of Salmonella Contamination of Shell Eggs—Preharvest and Postharvest Methods: A Review, Comprehensive Reviews in Food Science and Food Safety, 12, 2, (155-182), (2013).
J.M. Zuehlke, B. Petrova and C.G. Edwards, Advances in the Control of Wine Spoilage by Zygosaccharomyces and Dekkera/Brettanomyces , Annual Review of Food Science and Technology, 10.1146/annurev-food-030212-182533, 4, 1, (57-78), (2013).
Fátima A. Miller, Cristina L. M. Silva and Teresa R. S. Brandão, A Review on Ozone-Based Treatments for Fruit and Vegetables Preservation, Food Engineering Reviews, 10.1007/s12393-013-9064-5, 5, 2, (77-106), (2013).
Otniel Freitas-Silva, Héctor Morales-Valle and Armando Venâncio, Potential of Aqueous Ozone to Control Aflatoxigenic Fungi in Brazil Nuts, ISRN Biotechnology, 10.5402/2013/859830, 2013, (1-6), (2013).
Prakash, Non-thermal processing technologies to improve the safety of nuts, Improving the Safety and Quality of Nuts, 10.1533/9780857097484.1.35, (35-55), (2013).
Kenji Ebihara, Fumiaki Mitsugi, Tomoaki Ikegami, Norihito Nakamura, Yukio Hashimoto, Yoshitaka Yamashita, Seiji Baba, Henryka D. Stryczewska, Joanna Pawlat, Shinriki Teii and Ta-Lun Sung, Ozone-mist spray sterilization for pest control in agricultural management, The European Physical Journal Applied Physics, 10.1051/epjap/2012120420, 61, 2, (24318), (2013).
Iryna Smetanska, Dase Hunaefi and Gustavo V. Barbosa-Cánovas, Nonthermal Technologies to Extend the Shelf Life of Fresh-Cut Fruits and Vegetables, Advances in Food Process Engineering Research and Applications, 10.1007/978-1-4614-7906-2_18, (375-413), (2013).
Alexander Fridman and Gary Friedman, References, Plasma Medicine, (483-495), (2013).
Norton Tomas and Brijesh K. Tiwari, Sustainable Cleaning and Sanitation in the Food Industry, Sustainable Food Processing, (363-376), (2013).
Sokunrotanak Srey, Iqbal Kabir Jahid and Sang-Do Ha, Biofilm formation in food industries: A food safety concern, Food Control, 10.1016/j.foodcont.2012.12.001, 31, 2, (572-585), (2013).
Dhillon, D. Wiesenborn, H. Sidhu and C. Wolf‐Hall, Improved Microbial Quality of Buckwheat using Antimicrobial Solutions in a Fluidized Bed, Journal of Food Science, 77, 4, (E98-E103), (2012).
Pina M. Fratamico, Vijay Juneja, Bassam A. Annous, Vasuhi Rasanayagam, M. Sundar, David Braithwaite and Steven Fisher, Application of Ozonated Dry Ice (ALIGAL™ Blue Ice) For Packaging and Transport in the Food Industry, Journal of Food Science, 77, 5, (M285-M291), (2012).
Ernandes Rodrigues de Alencar, Lêda Rita D'Antonino Faroni, Nilda de Fátima Ferreira Soares, Washington Azevedo da Silva and Marta Cristina da Silva Carvalho, Efficacy of ozone as a fungicidal and detoxifying agent of aflatoxins in peanuts, Journal of the Science of Food and Agriculture, 92, 4, (899-905), (2011).
Kristi M. Crowe, Al Bushway and Kathy Davis-Dentici, Impact of postharvest treatments, chlorine and ozone, coupled with low-temperature frozen storage on the antimicrobial quality of lowbush blueberries (Vaccinium angustifolium), LWT - Food Science and Technology, 10.1016/j.lwt.2011.12.026, 47, 1, (213-215), (2012).
Sudarsan Mukhopadhyay and Raghupathy Ramaswamy, Application of emerging technologies to control Salmonella in foods: A review, Food Research International, 10.1016/j.foodres.2011.05.016, 45, 2, (666-677), (2012).
Patrick Cullen and Brijesh Tiwari, Applications of Ozone in Fruit Processing, Advances in Fruit Processing Technologies, 10.1201/b12088-7, (185-202), (2012).
S. Patil and P. Bourke, Ozone Processing of Fluid Foods, Novel Thermal and Non-Thermal Technologies for Fluid Foods, 10.1016/B978-0-12-381470-8.00009-8, (225-261), (2012).
T. Skåra, J.T. Rosnes and C. Leadley, Microbial decontamination of seafood, Microbial Decontamination in the Food Industry, 10.1533/9780857095756.1.96, (96-124), (2012).
A.S. Chawla, D.R. Kasler, S.K. Sastry and A.E. Yousef, Microbial decontamination of food using ozone, Microbial Decontamination in the Food Industry, 10.1533/9780857095756.3.495, (495-532), (2012).
Thierry Marique, Olivier Allard and Martin Spanoghe, Use of Self-Organizing Map to Analyze Images of Fungi Colonies Grown from Triticum aestivum Seeds Disinfected by Ozone Treatment , International Journal of Microbiology, 10.1155/2012/865175, 2012, (1-5), (2012).
Sanehiro Muromachi, Ryo Ohmura and Yasuhiko H. Mori, Phase equilibrium for ozone-containing hydrates formed from an (ozone+oxygen) gas mixture coexisting with gaseous carbon dioxide and liquid water, The Journal of Chemical Thermodynamics, 10.1016/j.jct.2012.01.009, 49, (1-6), (2012).
J Winter, M Dünnbier, A Schmidt-Bleker, A Meshchanov, S Reuter and K-D Weltmann, Aspects of UV-absorption spectroscopy on ozone in effluents of plasma jets operated in air, Journal of Physics D: Applied Physics, 10.1088/0022-3727/45/38/385201, 45, 38, (385201), (2012).
Hülya Ölmez, Ozone, Decontamination of Fresh and Minimally Processed Produce, (177-195), (2012).
Steven Pao, Wilbert Long, Chyer Kim and D. Frank Kelsey, Produce Washers, Decontamination of Fresh and Minimally Processed Produce, (87-103), (2012).
P. J. Cullen and Tomás Norton, Ozone Sanitisation in the Food Industry, Ozone in Food Processing, (163-176), (2012).
Tomás Norton and Paula Misiewicz, Ozone for Water Treatment and its Potential for Process Water Reuse in the Food Industry, Ozone in Food Processing, (177-199), (2012).
Ioannis S. Arvanitoyannis, Ozone for Food Waste and Odour Treatment, Ozone in Food Processing, (201-221), (2012).
Vasilis P. Valdramidis, P. J. Cullen and B. K. Tiwari, Modelling Approaches for Ozone Processing, Ozone in Food Processing, (241-263), (2012).
Annel K. Greene, Zeynep B. Güzel‐Seydim and Atıf Can Seydim, Chemical and Physical Properties of Ozone, Ozone in Food Processing, (19-32), (2012).
K. Tiwari and K. Muthukumarappan, Ozone in Fruit and Vegetable Processing, Ozone in Food Processing, (55-80), (2012).
V. Lullien‐Pellerin, Ozone in Grain Processing, Ozone in Food Processing, (81-101), (2012).
Maite Novo, Manuel Quirós, Pilar Morales and Ramón González, Wine Technology, Handbook of Fruits and Fruit Processing, (461-488), (2012).
Ibrahim Al‐Adham, Randa Haddadin and Phillip Collier, Types of Microbicidal and Microbistatic Agents, Russell, Hugo & Ayliffe's, (5-70), (2012).
Vicente M. Gómez‐López, Selected Techniques to Decontaminate Minimally Processed Vegetables, Progress in Food Preservation, (1-21), (2012).
Bülent Zorlugenç and Feyza Kıroğlu Zorlugenç, Ozone in Food Preservation, Progress in Food Preservation, (231-245), (2012).
Kasiviswanathan Muthukumarappan, Ozone Processing, Handbook of Food Safety Engineering, (681-692), (2012).
Carmen Gomes, Rosana G. Moreira and Elena Castell‐Perez, Radiosensitization of Salmonella spp. and Listeria spp. in Ready‐to‐Eat Baby Spinach Leaves, Journal of Food Science, 76, 1, (E141-E148), (2010).
K. A. HIRNEISEN, S. M. MARKLAND and K. E. KNIEL, Ozone Inactivation of Norovirus Surrogates on Fresh Produce, Journal of Food Protection, 10.4315/0362-028X.JFP-10-438, 74, 5, (836-839), (2011).
H. Ikeura, F. Kobayashi and M. Tamaki, Removal of residual pesticide, fenitrothion, in vegetables by using ozone microbubbles generated by different methods, Journal of Food Engineering, 10.1016/j.jfoodeng.2010.11.002, 103, 3, (345-349), (2011).
Jasim Ahmed, Emerging technologies for pulse processing, Pulse Foods, 10.1016/B978-0-12-382018-1.00009-5, (223-247), (2011).
Elisabete M.C. Alexandre, Dora M. Santos-Pedro, Teresa R.S. Brandão and Cristina L.M. Silva, Influence of aqueous ozone, blanching and combined treatments on microbial load of red bell peppers, strawberries and watercress, Journal of Food Engineering, 10.1016/j.jfoodeng.2011.02.032, 105, 2, (277-282), (2011).
F. Coll Cárdenas, S. Andrés, L. Giannuzzi and N. Zaritzky, Antimicrobial action and effects on beef quality attributes of a gaseous ozone treatment at refrigeration temperatures, Food Control, 10.1016/j.foodcont.2011.03.006, 22, 8, (1442-1447), (2011).
S. Patil, V. P. Valdramidis, B. K. Tiwari, P. J. Cullen and P. Bourke, Quantitative assessment of the shelf life of ozonated apple juice, European Food Research and Technology, 10.1007/s00217-010-1416-2, 232, 3, (469-477), (2011).
NOR NADIAH ABDUL KARIM SHAH, RUSSLY ABDUL RAHMAN, LING TAU CHUAN and DZULKIFLY MAT HASHIM, APPLICATION OF GASEOUS OZONE TO INACTIVATE BACILLUS CEREUS IN PROCESSED RICE, Journal of Food Process Engineering, 34, 6, (2220-2232), (2010).
WILBERT LONG III, STEVEN PAO, PAULA INSERRA, EDWINA WESTBROOK and SOOHYOUN AHN, EFFICACY OF OZONE PRODUCE WASHERS IN REDUCING NATURAL AND ARTIFICIALLY INOCULATED MICROORGANISMS ON ROMA TOMATOES AND GREEN ONIONS, Journal of Food Safety, 31, 2, (268-275), (2011).
Sonia B. Martínez, Jerónimo Pérez-Parra and Ricardo Suay, Use of Ozone in Wastewater Treatment to Produce Water Suitable for Irrigation, Water Resources Management, 10.1007/s11269-011-9798-x, 25, 9, (2109-2124), (2011).
O.P. Chauhan, P.S. Raju, N. Ravi, Asha Singh and A.S. Bawa, Effectiveness of ozone in combination with controlled atmosphere on quality characteristics including lignification of carrot sticks, Journal of Food Engineering, 10.1016/j.jfoodeng.2010.07.033, 102, 1, (43-48), (2011).
Ragip Ozkan, Joseph L. Smilanick and Ozgur Akgun Karabulut, Toxicity of ozone gas to conidia of Penicillium digitatum, Penicillium italicum, and Botrytis cinerea and control of gray mold on table grapes, Postharvest Biology and Technology, 10.1016/j.postharvbio.2010.12.004, 60, 1, (47-51), (2011).
Alan J. Beswick, J. Farrant, C. Makison, J. Gawn, G. Frost, B. Crook and J. Pride, Comparison of Multiple Systems for Laboratory Whole Room Fumigation, Applied Biosafety, 10.1177/153567601101600303, 16, 3, (139-157), (2011).
Kumar Das, Ji Gang Kim and Ji Weon Choi, Efficacy of different washing solutions and contact times on the microbial quality and safety of fresh-cut paprika, Food Science and Technology International, 10.1177/1082013211398842, 17, 5, (471-479), (2011).
Rawson, A. Patras, B.K. Tiwari, F. Noci, T. Koutchma and N. Brunton, Effect of thermal and non thermal processing technologies on the bioactive content of exotic fruits and their products: Review of recent advances, Food Research International, 10.1016/j.foodres.2011.02.053, 44, 7, (1875-1887), (2011).
Cláudia Kaehler Sautter, Auri Brackmann, Rogério de Oliveira Anese, Anderson Weber, Mara Regina Rizzatti and Elizandra Pivotto Pavanello, Controle da podridão-parda e características físico-químicas de pêssegos 'Magnum' submetidos a tratamentos pós-colheita com elicitores abióticos, Revista Ceres, 10.1590/S0034-737X2011000200007, 58, 2, (172-177), (2011).
Kasiviswanathan Muthukumarappan, Colm P. O'Donnell and P. J. Cullen, Ozone Utilization, Encyclopedia of Agricultural, Food, and Biological Engineering, Second Edition, 10.1081/E-EAFE2-120044004, (1177-1180), (2010).
, Winery microbiology and sanitation, Winemaking Problems Solved, 10.1533/9781845690188.257, (257-289), (2010).
S. Patil, V.P. Valdramidis, P.J. Cullen, J. Frias and P. Bourke, Inactivation of Escherichia coli by ozone treatment of apple juice at different pH levels, Food Microbiology, 10.1016/j.fm.2010.05.002, 27, 6, (835-840), (2010).
Otniel Freitas-Silva and Armando Venâncio, Ozone applications to prevent and degrade mycotoxins: a review, Drug Metabolism Reviews, 10.3109/03602532.2010.484461, 42, 4, (612-620), (2010).
B.K. Tiwari, C.S. Brennan, T. Curran, E. Gallagher, P.J. Cullen and C.P. O' Donnell, Application of ozone in grain processing, Journal of Cereal Science, 10.1016/j.jcs.2010.01.007, 51, 3, (248-255), (2010).
Franka Mlikota Gabler, Joseph L. Smilanick, Monir F. Mansour and Hakan Karaca, Influence of fumigation with high concentrations of ozone gas on postharvest gray mold and fungicide residues on table grapes, Postharvest Biology and Technology, 10.1016/j.postharvbio.2009.09.004, 55, 2, (85-90), (2010).
Setsuko Kamotani, Neal Hooker, Stephanie Smith and Ken Lee, Consumer Acceptance of Ozone‐Treated Whole Shell Eggs, Journal of Food Science, 75, 2, (S103-S107), (2010).
Kasiviswanathan Muthukumarappan, Colm O’Donnell and Patrick Cullen, Ozone Processing, Mathematical Modeling of Food Processing, 10.1201/9781420053548-c22, (607-622), (2010).
J.P. Osborne, Advances in microbiological quality control, Managing Wine Quality, 10.1533/9781845699284.2.162, (162-188), (2010).
Nachiket D. Vaze, Michael J. Gallagher, Sin Park, Gregory Fridman, Victor N. Vasilets, Alexander F. Gutsol, Shivanthi Anandan, Gary Friedman and Alexander A. Fridman, Inactivation of Bacteria in Flight by Direct Exposure to Nonthermal Plasma, IEEE Transactions on Plasma Science, 10.1109/TPS.2010.2072788, 38, 11, (3234-3240), (2010).
Mayra Bataller Venta, Sandra Santa Cruz Broche, Irán Fernández Torres, Mario García Pérez, Eliet Veliz Lorenzo, Yalexmi Ramos Rodriguez and Silvia Menéndez Cepero, Ozone Application for Postharvest Disinfection of Tomatoes, Ozone: Science & Engineering, 10.1080/01919512.2010.508100, 32, 5, (361-371), (2010).
Franka Mlikota Gabler, Julien Mercier, J.I. Jiménez and J.L. Smilanick, Integration of continuous biofumigation with Muscodor albus with pre-cooling fumigation with ozone or sulfur dioxide to control postharvest gray mold of table grapes, Postharvest Biology and Technology, 10.1016/j.postharvbio.2009.07.012, 55, 2, (78-84), (2010).
Kirsten A. Hirneisen, Elaine P. Black, Jennifer L. Cascarino, Viviana R. Fino, Dallas G. Hoover and Kalmia E. Kniel, Viral Inactivation in Foods: A Review of Traditional and Novel Food‐Processing Technologies, Comprehensive Reviews in Food Science and Food Safety, 9, 1, (3-20), (2009).
S. Patil, B. Torres, B.K. Tiwari, Hilde H. Wijngaard, P. Bourke, P.J. Cullen, C.P. O’ Donnell and V.P. Valdramidis, Safety and Quality Assessment during the Ozonation of Cloudy Apple Juice, Journal of Food Science, 75, 7, (M437-M443), (2010).
Hülya Ölmez and Ursula Kretzschmar, Potential alternative disinfection methods for organic fresh-cut industry for minimizing water consumption and environmental impact, LWT - Food Science and Technology, 10.1016/j.lwt.2008.08.001, 42, 3, (686-693), (2009).
P.J. Cullen, B.K. Tiwari, C.P. O'Donnell and K. Muthukumarappan, Modelling approaches to ozone processing of liquid foods, Trends in Food Science & Technology, 10.1016/j.tifs.2009.01.049, 20, 3-4, (125-136), (2009).
Paul A. Klockow and Kevin M. Keener, Safety and quality assessment of packaged spinach treated with a novel ozone-generation system, LWT - Food Science and Technology, 10.1016/j.lwt.2009.02.011, 42, 6, (1047-1053), (2009).
S. Patil, P. Bourke, J.M. Frias, B.K. Tiwari and P.J. Cullen, Inactivation of Escherichia coli in orange juice using ozone, Innovative Food Science & Emerging Technologies, 10.1016/j.ifset.2009.05.011, 10, 4, (551-557), (2009).
B.K. Tiwari, C.P. O'Donnell and P.J. Cullen, Effect of non thermal processing technologies on the anthocyanin content of fruit juices, Trends in Food Science & Technology, 10.1016/j.tifs.2009.01.058, 20, 3-4, (137-145), (2009).
MUSTAFA VURMA, RAM B. PANDIT, SUDHIR K. SASTRY and AHMED E. YOUSEF, Inactivation of Escherichia coli O157:H7 and Natural Microbiota on Spinach Leaves Using Gaseous Ozone during Vacuum Cooling and Simulated Transportation, Journal of Food Protection, 10.4315/0362-028X-72.7.1538, 72, 7, (1538-1546), (2009).
Brijesh K. Tiwari, Colm P. O’ Donnell, Nigel P. Brunton and Patrick J. Cullen, Degradation kinetics of tomato juice quality parameters by ozonation, International Journal of Food Science & Technology, 44, 6, (1199-1205), (2009).
S. Patil, P.J. Cullen, B. Kelly, J.M. Frías and P. Bourke, Extrinsic control parameters for ozone inactivation of Escherichia coli using a bubble column, Journal of Applied Microbiology, 107, 3, (830-837), (2009).
Deana Sharpe, Lihua Fan, Ken McRae, Brad Walker, Ron MacKay and Craig Doucette, Effects of Ozone Treatment on Botrytis cinerea and Sclerotinia sclerotiorum in Relation to Horticultural Product Quality, Journal of Food Science, 74, 6, (M250-M257), (2009).
Dhillon, D. Wiesenborn, C. Wolf‐Hall and F. Manthey, Development and Evaluation of an Ozonated Water System for Antimicrobial Treatment of Durum Wheat, Journal of Food Science, 74, 7, (E396-E403), (2009).
Shalana L. Brown, Kathleen M. Leonard and Sherri L. Messimer, Evaluation of Ozone Pretreatment on Flux Parameters of Reverse Osmosis for Surface Water Treatment, Ozone: Science & Engineering, 10.1080/01919510701864031, 30, 2, (152-164), (2008).
N. Christofi, M.A. Misakyan, G.G. Matafonova, E.M. Barkhudarov, V.B. Batoev, I.A. Kossyi and J. Sharp, UV treatment of microorganisms on artificially-contaminated surfaces using excimer and microwave UV lamps, Chemosphere, 10.1016/j.chemosphere.2008.06.059, 73, 5, (717-722), (2008).
K. A. Segovia-Bravo, P. Garcia-Garcia, F. N. Arroyo-López, A. López-López and A. Garrido-Fernández, Ozonation process for the regeneration and recycling of Spanish green table olive fermentation brines, European Food Research and Technology, 10.1007/s00217-007-0742-5, 227, 2, (463-472), (2007).
Desvignes, M. Chaurand, M. Dubois, A. Sadoudi, J. Abecassis and V. Lullien-Pellerin, Changes in common wheat grain milling behavior and tissue mechanical properties following ozone treatment, Journal of Cereal Science, 10.1016/j.jcs.2007.04.004, 47, 2, (245-251), (2008).
B.K. Tiwari, K. Muthukumarappan, C.P. O’Donnell, M. Chenchaiah and P.J. Cullen, Effect of ozonation on the rheological and colour characteristics of hydrocolloid dispersions, Food Research International, 10.1016/j.foodres.2008.07.011, 41, 10, (1035-1043), (2008).
Edvard Mikhailovich Barkhudarov, Nick Christofi, Igor Antonovich Kossyi, Mamikon Aramovich Misakyan, John Sharp and Ivan Merabovich Taktakishvili, Killing bacteria present on surfaces in films or in droplets using microwave UV lamps, World Journal of Microbiology and Biotechnology, 10.1007/s11274-007-9536-y, 24, 6, (761-769), (2007).
NORASAK KALCHAYANAND, TERRANCE M. ARTHUR, JOSEPH M. BOSILEVAC, DAYNA M. BRICHTA-HARHAY, MICHAEL N. GUERINI, TOMMY L. WHEELER and MOHAMMAD KOOHMARAIE, Evaluation of Various Antimicrobial Interventions for the Reduction of Escherichia coli O157:H7 on Bovine Heads during Processing, Journal of Food Protection, 10.4315/0362-028X-71.3.621, 71, 3, (621-624), (2008).
B.K. Tiwari, K. Muthukumarappan, C.P. O’ Donnell and P.J. Cullen, Modelling colour degradation of orange juice by ozone treatment using response surface methodology, Journal of Food Engineering, 10.1016/j.jfoodeng.2008.03.021, 88, 4, (553-560), (2008).
Laura Pastoriza, Marta Bernárdez, Gabriel Sampedro, Marta L. Cabo and Juan J.R. Herrera, Use of sterile and ozonized water as a strategy to stabilize the quality of stored refrigerated fresh fish, Food Control, 10.1016/j.foodcont.2007.08.003, 19, 8, (772-780), (2008).
F.N. Arroyo-López, J. Bautista-Gallego, M.C. Durán-Quintana, F. Rodríguez-Gómez, C. Romero-Barranco and A. Garrido-Fernández, Improvement of the storage process for cracked table olives, Journal of Food Engineering, 10.1016/j.jfoodeng.2008.06.001, 89, 4, (479-487), (2008).
Byron K. Murray, Seiga Ohmine, David P. Tomer, Kendal J. Jensen, F. Brent Johnson, Jorma J. Kirsi, Richard A. Robison and Kim L. O’Neill, Virion disruption by ozone-mediated reactive oxygen species, Journal of Virological Methods, 10.1016/j.jviromet.2008.06.004, 153, 1, (74-77), (2008).
H. Benli, B.S. Hafley, J.T. Keeton, L.M. Lucia, E. Cabrera-Diaz and G.R. Acuff, Biomechanical and microbiological changes in natural hog casings treated with ozone, Meat Science, 10.1016/j.meatsci.2007.08.013, 79, 1, (155-162), (2008).
Meltem Y. Akbas and Murat Ozdemir, Effect of gaseous ozone on microbial inactivation and sensory of flaked red peppers, International Journal of Food Science & Technology, 43, 9, (1657-1662), (2008).
Suzanne L Moore and David N Payne, Types of Antimicrobial Agents, Russell, Hugo & Ayliffe's Principles and Practice of Disinfection, Preservation & Sterilization, (8-97), (2008).
Woo-Seok Bang, Young-Rhan Eom and Deog-Hwan Oh, Reduction of Microflora in the Manufacture of Saengshik by Hygienic Processing, Preventive Nutrition and Food Science, 10.3746/jfn.2007.12.3.167, 12, 3, (167-172), (2007).
Pascual, I. Llorca and A. Canut, Use of ozone in food industries for reducing the environmental impact of cleaning and disinfection activities, Trends in Food Science & Technology, 10.1016/j.tifs.2006.10.006, 18, (S29-S35), (2007).
Kuangji Wei, Hongde Zhou, Ting Zhou and Jianhua Gong, Comparison of Aqueous Ozone and Chlorine as Sanitizers in the Food Processing Industry: Impact on Fresh Agricultural Produce Quality, Ozone: Science & Engineering, 10.1080/01919510601186592, 29, 2, (113-120), (2007).
Rashmi Chand, David H. Bremner, Kyu C. Namkung, Phillip J. Collier and Parag R. Gogate, Water disinfection using the novel approach of ozone and a liquid whistle reactor, Biochemical Engineering Journal, 10.1016/j.bej.2007.01.032, 35, 3, (357-364), (2007).
Jianshen An, Min Zhang and Qirui Lu, Changes in some quality indexes in fresh-cut green asparagus pretreated with aqueous ozone and subsequent modified atmosphere packaging, Journal of Food Engineering, 10.1016/j.jfoodeng.2005.10.001, 78, 1, (340-344), (2007).
K.A. Segovia Bravo, F.N. Arroyo López, P. García García, M.C. Durán Quintana and A. Garrido Fernández, Treatment of green table olive solutions with ozone. Effect on their polyphenol content and on Lactobacillus pentosus and Saccharomyces cerevisiae growth, International Journal of Food Microbiology, 10.1016/j.ijfoodmicro.2006.09.032, 114, 1, (60-68), (2007).
M.J. Gallagher, N. Vaze, S. Gangoli, V.N. Vasilets, A.F. Gutsol, T.N. Milovanova, S. Anandan, D.M. Murasko and A.A. Fridman, Rapid Inactivation of Airborne Bacteria Using Atmospheric Pressure Dielectric Barrier Grating Discharge, IEEE Transactions on Plasma Science, 10.1109/TPS.2007.905209, 35, 5, (1501-1510), (2007).
Domingo Martínez-Romero, Gloria Bailén, María Serrano, Fabián Guillén, Juan Miguel Valverde, Pedro Zapata, Salvador Castillo and Daniel Valero, Tools to Maintain Postharvest Fruit and Vegetable Quality through the Inhibition of Ethylene Action: A Review, Critical Reviews in Food Science and Nutrition, 10.1080/10408390600846390, 47, 6, (543-560), (2007).
K.A. Segovia‐Bravo, F.N. Arroyo‐López, P. García‐García, M.C. Durán‐Quintana and A. Garrido‐Fernández, Reuse of Ozonated Alkaline Solutions as Fermentation Brines in Spanish Green Table Olives, Journal of Food Science, 72, 4, (M126-M133), (2007).
S. Seo, J.M. King and W. Prinyawiwatkul, Simultaneous Depolymerization and Decolorization of Chitosan by Ozone Treatment, Journal of Food Science, 72, 9, (C522-C526), (2007).
Revis A. N. Chmielewski and Joseph F. Frank, Inactivation of Listeria Monocytogenes Biofilms Using Chemical Sanitizers and Heat, Biofilms in the Food Environment, (73-104), (2007).
John S. Novak and James T. C. Yuan, The Ozonation Concept: Advantages of Ozone Treatment and Commercial Developments, Advances in Thermal and Non‐Thermal Food Preservation, (185-193), (2007).
Karin Hassenberg, Christine Idler, Eleanor Molloy, Martin Geyer, Matthias Plöchl and Jeremy Barnes, Use of ozone in a lettuce‐washing process: an industrial trial, Journal of the Science of Food and Agriculture, 87, 5, (914-919), (2007).
Meltem Yesilcimen Akbas and Hülya Ölmez, Effectiveness of organic acid, ozonated water and chlorine dippings on microbial reduction and storage quality of fresh‐cut iceberg lettuce, Journal of the Science of Food and Agriculture, 87, 14, (2609-2616), (2007).
SHIGENOBU KOSEKI and SEIICHIRO ISOBE, Effect of Ozonated Water Treatment on Microbial Control and on Browning of Iceberg Lettuce (Lactuca sativa L.), Journal of Food Protection, 10.4315/0362-028X-69.1.154, 69, 1, (154-160), (2006).
Laurence Ketteringham, Raphaelle Gausseres, Stephen J. James and Christian James, Application of aqueous ozone for treating pre-cut green peppers (Capsicum annuum L.), Journal of Food Engineering, 10.1016/j.jfoodeng.2005.05.019, 76, 1, (104-111), (2006).
F. N. ARROYO LÓPEZ, M. C. DURÁN QUINTANA and A. GARRIDO FERNÁNDEZ, Microbial Evolution during Storage of Seasoned Olives Prepared with Organic Acids with Potassium Sorbate, Sodium Benzoate, and Ozone Used as Preservatives, Journal of Food Protection, 10.4315/0362-028X-69.6.1354, 69, 6, (1354-1364), (2006).
Hyun‐Gyun Yuk, Mee‐Young Yoo, Jae‐Won Yoon, Kwang‐Deog Moon, Douglas L. Marshall and Deog‐Hwan Oh, Effect of Combined Ozone and Organic Acid Treatment for Control of Escherichia coli O157:H7 and Listeria monocytogenes on Lettuce, Journal of Food Science, 71, 3, (M83-M87), (2006).
Wiley Online Library
Ajit K. Mahapatra, K. Muthukumarappan and James L. Julson, Applications of Ozone, Bacteriocins and Irradiation in Food Processing: A Review, Critical Reviews in Food Science and Nutrition, 10.1080/10408390591034454, 45, 6, (447-461), (2005).
Jakob Søltoft-Jensen and Flemming Hansen, New Chemical and Biochemical Hurdles, Emerging Technologies for Food Processing, 10.1016/B978-012676757-5/50017-7, (387-416), (2005).
Gerald Sapers, Washing and Sanitizing Treatments for Fruits and Vegetables, Microbiology of Fruits and Vegetables, 10.1201/9781420038934.ch17, (375-400), (2010).
R. Sharma, Ozone decontamination of fresh fruit and vegetables, Improving the Safety of Fresh Fruit and Vegetables, 10.1533/9781845690243.3.373, (373-386), (2005).
Yeonghee Ahn, Haeryong Jung, Rameshwar Tatavarty, Heechul Choi, Ji-won Yang and In S. Kim, Monitoring of petroleum hydrocarbon degradative potential of indigenous microorganisms in ozonated soil, Biodegradation, 10.1007/s10531-004-0428-2, 16, 1, (45-56), (2005).
G. Manousaridis, A. Nerantzaki, E.K. Paleologos, A. Tsiotsias, I.N. Savvaidis and M.G. Kontominas, Effect of ozone on microbial, chemical and sensory attributes of shucked mussels, Food Microbiology, 10.1016/j.fm.2004.06.003, 22, 1, (1-9), (2005).
Travis Selby, Philip Nelson, Yingchang Han and Richard Linton, Gas-/Vapor-Phase Sanitation (Decontamination) Treatments, Microbiology of Fruits and Vegetables, 10.1201/9781420038934.ch18, (401-435), (2010).
Alexandra Nerantzaki, Arsenis Tsiotsias, Evangelos K. Paleologos, Ioannis N. Savvaidis, Eugenia Bezirtzoglou and Michael G. Kontominas, Effects of ozonation on microbiological, chemical and sensory attributes of vacuum-packaged rainbow trout stored at 4±0.5°C, European Food Research and Technology, 10.1007/s00217-005-0042-x, 221, 5, (675-683), (2005).
Sandra Casani, Mahbod Rouhany and Susanne Knøchel, A discussion paper on challenges and limitations to water reuse and hygiene in the food industry, Water Research, 10.1016/j.watres.2004.12.015, 39, 6, (1134-1146), (2005).
Hua Wang, Hao Feng and Yaguang Luo, Microbial reduction and storage quality of fresh-cut cilantro washed with acidic electrolyzed water and aqueous ozone, Food Research International, 10.1016/j.foodres.2004.06.004, 37, 10, (949-956), (2004).
Charles Crapo, Brian Himelbloom, Susan Vitt and Leo Pedersen, Ozone Efficacy as a Bactericide in Seafood Processing, Journal of Aquatic Food Product Technology, 10.1300/J030v13n01_10, 13, 1, (111-123), (2004).
A Allende, E Aguayo and F Artés, Microbial and sensory quality of commercial fresh processed red lettuce throughout the production chain and shelf life, International Journal of Food Microbiology, 10.1016/S0168-1605(03)00373-8, 91, 2, (109-117), (2004).
Tim Brown, Janet E.L. Corry and Stephen J. James, Humidification of chilled fruit and vegetables on retail display using an ultrasonic fogging system with water/air ozonation, International Journal of Refrigeration, 10.1016/j.ijrefrig.2004.04.009, 27, 8, (862-868), (2004).
Sascha Baur, Ralph Klaiber, Walter Peter Hammes and Reinhold Carle, Sensory and microbiological quality of shredded, packaged iceberg lettuce as affected by pre-washing procedures with chlorinated and ozonated water, Innovative Food Science & Emerging Technologies, 10.1016/j.ifset.2003.10.002, 5, 1, (45-55), (2004).
JOHN S. NOVAK and JAMES T. C. YUAN, Viability of Clostridium perfringens, Escherichia coli, and Listeria monocytogenes Surviving Mild Heat or Aqueous Ozone Treatment on Beef Followed by Heat, Alkali, or Salt Stress, Journal of Food Protection, 10.4315/0362-028X-66.3.382, 66, 3, (382-389), (2003).
A.D. Russell, Bacterial Outer Membrane and Cell Wall Penetration and Cell Destruction by Polluting Chemical Agents and Physical Conditions, Science Progress, 10.3184/003685003783238608, 86, 4, (283-312), (2019).
M. A. KHADRE and A. E. YOUSEF, Susceptibility of Human Rotavirus to Ozone, High Pressure, and Pulsed Electric Field, Journal of Food Protection, 10.4315/0362-028X-65.9.1441, 65, 9, (1441-1446), (2002).
G.E. Zaikov, S. Rakovsky and M. Anachkov, Ozone Applications, Kirk‐Othmer Encyclopedia of Chemical Technology, (1-22), (2008).
Agnieszka Joanna Brodowska, Krzysztof Śmigielski, Agnieszka Nowak, Agata Czyżowska and Anna Otlewska, The Impact of Ozone Treatment in Dynamic Bed Parameters on Changes in Biologically Active Substances of Juniper Berries, PLOS ONE, 10.1371/journal.pone.0144855, 10, 12, (e0144855), (2015).
Jae-Hyun Yoon and Sun-Young Lee, Review: Comparison of the effectiveness of decontaminating strategies for fresh fruits and vegetables and related limitations, Critical Reviews in Food Science and Nutrition, 10.1080/10408398.2017.1354813, (1-20), (2017).
Xinyi E, Bhadriraju Subramanyam and Beibei Li, Efficacy of Ozone against Phosphine Susceptible and Resistant Strains of Four Stored-Product Insect Species, Insects, 10.3390/insects8020042, 8, 2, (42), (2017).
Nor Nadiah Abdul Karim Shah, Nur Amira Mohd Supian and Nadia Aida Hussein, Disinfectant of pummelo (Citrus Grandis L. Osbeck) fruit juice using gaseous ozone, Journal of Food Science and Technology, 10.1007/s13197-018-3486-2, (2018).
A.P. Louppis, P. Katikou, D. Georgantelis, A.V. Badeka and M.G. Kontominas, Effect of ozonation and γ-irradiation on post-harvest decontamination of mussels ( Mytillus galloprovincialis ) containing diarrhetic shellfish toxins , Food Additives & Contaminants: Part A, 10.1080/19440049.2011.603365, (1-10), (2011).
Li Wang, Huili Shao, Xiaohu Luo, Ren Wang, Yongfu Li, Yanan Li, Yingpeng Luo and Zhengxing Chen, Effect of Ozone Treatment on Deoxynivalenol and Wheat Quality, PLOS ONE, 10.1371/journal.pone.0147613, 11, 1, (e0147613), (2016).
Dario Zappa, Low-Power Detection of Food Preservatives by a Novel Nanowire-Based Sensor Array, Foods, 10.3390/foods8060226, 8, 6, (226), (2019).
Carlo Nicoletto, Carmelo Maucieri and Paolo Sambo, Effects on Water Management and Quality Characteristics of Ozone Application in Chicory Forcing Process: A Pilot System, Agronomy, 10.3390/agronomy7020029, 7, 2, (29), (2017).
Asgar Ali, Wei Keat Yeoh, Charles Forney and Mohammed Wasim Siddiqui, Advances in postharvest technologies to extend the storage life of minimally processed fruits and vegetables, Critical Reviews in Food Science and Nutrition, 10.1080/10408398.2017.1339180, (1-18), (2017).
N. N. Misra, Alex Martynenko, Farid Chemat, Larysa Paniwnyk, Francisco J. Barba and Anet Režek Jambrak, Thermodynamics, transport phenomena, and electrochemistry of external field-assisted nonthermal food technologies, Critical Reviews in Food Science and Nutrition, 10.1080/10408398.2017.1287660, (1-32), (2017).
Evgenya S. Shelobolina, Diane K. Walker, Albert E. Parker, Dorian V. Lust, Johanna M. Schultz and Grace E. Dickerman, Inactivation of Pseudomonas aeruginosa biofilms formed under high shear stress on various hydrophilic and hydrophobic surfaces by a continuous flow of ozonated water , Biofouling, 10.1080/08927014.2018.1506023, (1-9), (2018).
Alex Fiori Silva, Anabela Borges, Efstathios Giaouris, Jane Martha Graton Mikcha and Manuel Simões, Photodynamic inactivation as an emergent strategy against foodborne pathogenic bacteria in planktonic and sessile states, Critical Reviews in Microbiology, 10.1080/1040841X.2018.1491528, (1-18), (2018).
Andrew C. Micciche, Kristinia M. Feye, Peter M. Rubinelli, Jennifer A. Wages, Carl J. Knueven and Steven C. Ricke, The Implementation and Food Safety Issues Associated With Poultry Processing Reuse Water for Conventional Poultry Production Systems in the United States, Frontiers in Sustainable Food Systems, 10.3389/fsufs.2018.00070, 2, (2018).
Tomasz Piechowiak, Piotr Antos, Radosław Józefczyk, Patryk Kosowski, Karol Skrobacz and Maciej Balawejder, Impact of Ozonation Process on the Microbiological Contamination and Antioxidant Capacity of Highbush Blueberry ( Vaccinum corymbosum L.) Fruit during Cold Storage , Ozone: Science & Engineering, 10.1080/01919512.2018.1540922, (1-10), (2018).
Xiang Ning Chen, Bin Jun Li, Ling Chuan Meng and Shuang Xi Fan, Research Progress in Preservation of Postharvest Leafy Vegetables, Advanced Materials Research, 10.4028/www.scientific.net/AMR.749.401, 749, (401-407), (2013).
Ya Wei, Yong Qiang Zhao, Shu Xian Hao, Xian Qing Yang, Hui Huang, Wan Ling Lin and Xian Qing Yang, Comparison of the Effect of Sterilization Pretreatment Using Four Different Bacteriostatic Agents on the Quality of Penaeus vannamei, Advanced Materials Research, 10.4028/www.scientific.net/AMR.884-885.409, 884-885, (409-414), (2014).
E Sasmita, A I Susan, E Yulianto, M Restiwijaya, A W Kinandana, F Arianto and M Nur, Effects of ozone-washing in a series of ozonation methods for inhibition of total microbial growth in some varieties of chili (Capsicum annuum L.), IOP Conference Series: Materials Science and Engineering, 10.1088/1757-899X/434/1/012020, 434, (012020), (2018).
R. Pandiselvam, S. Subhashini, E.P. Banuu Priya, Anjineyulu Kothakota, S.V. Ramesh and S. Shahir, Ozone based food preservation: a promising green technology for enhanced food safety, Ozone: Science & Engineering, 10.1080/01919512.2018.1490636, (1-18), (2018).
Marco Remondino and Luigi Valdenassi, Different Uses of Ozone: Environmental and Corporate Sustainability. Literature Review and Case Study, Sustainability, 10.3390/su10124783, 10, 12, (4783), (2018).
Dana Kristen Dittoe, Kristina Marie Feye, Bob Peyton, Drew Worlie, Michael J. Draper and Steven C. Ricke, The Addition of ViriditecTM Aqueous Ozone to Peracetic Acid as an Antimicrobial Spray Increases Air Quality While Maintaining Salmonella Typhimurium, Non-pathogenic Escherichia coli, and Campylobacter jejuni Reduction on Whole Carcasses, Frontiers in Microbiology, 10.3389/fmicb.2018.03180, 9, (2019).
Nataša Hojnik, Martina Modic, Yuan Ni, Gregor Filipič, Uroš Cvelbar and James L. Walsh, Effective Fungal Spore Inactivation with an Environmentally Friendly Approach Based on Atmospheric Pressure Air Plasma, Environmental Science & Technology, 10.1021/acs.est.8b05386, (2019).
Hua Li, Lizhen Yang, Zhengduo Wang, Zhongwei Liu and Qiang Chen, Pre-grafted Group on PE Surface by DBD Plasma and Its Influence on the Oxygen Permeation with Coated SiOx, Molecules, 10.3390/molecules24040780, 24, 4, (780), (2019).
R. Pandiselvam, M.R. Manikantan, V. Divya, C. Ashokkumar, R. Kaavya, Anjineyulu Kothakota and S.V. Ramesh, Ozone: An Advanced Oxidation Technology for Starch Modification, Ozone: Science & Engineering, 10.1080/01919512.2019.1577128, (1-17), (2019).
Skowron, Wałecka-Zacharska, Grudlewska, Białucha, Wiktorczyk, Bartkowska, Kowalska, Kruszewski and Gospodarek-Komkowska, Biocidal Effectiveness of Selected Disinfectants Solutions Based on Water and Ozonated Water against Listeria monocytogenes Strains, Microorganisms, 10.3390/microorganisms7050127, 7, 5, (127), (2019).
Eva Fathul Karamah, Nadifa Ismaningtyas and Adlimatul Putri Ilmiyah, The effect of exposure time and water replacement in the application of ozonated water to maintain the quality of tuna, IOP Conference Series: Materials Science and Engineering, 10.1088/1757-899X/509/1/012092, 509, (012092), (2019).
Zhi Min Fu, Yu Gao Zhang and Xiao Jun Wang, Textile Wastewater Treatment Using Combined Process of Biological Wriggle Bed and Ozone Biological Aerated Filter, Advanced Materials Research, 10.4028/www.scientific.net/AMR.441.589, 441, (589-592), (2012).
Emanuele Oliveira Cerqueira Amorim, Alline Artigiani Lima Tribst, Pedro Esteves Duarte Augusto and Marcelo Cristianini, Inactivation of E. coli and B. subtilis spores in ozonized cassava starch, Food Science and Technology, 10.1590/S0101-20612013005000043, 33, 2, (289-294), (2013).
A.M. Torres, S.A. Palacios, N. Yerkovich, J.M. Palazzini, P. Battilani, J.F. Leslie, A.F. Logrieco and S.N. Chulze, Fusarium head blight and mycotoxins in wheat: prevention and control strategies across the food chain , World Mycotoxin Journal, 10.3920/WMJ2019.2438, (1-24), (2019).
Melicia Cintia Galdeano, Allan Eduardo Wilhelm, Isabella Borges Goulart, Renata Valeriano Tonon, Otniel Freitas-Silva, Rogério Germani and Davy William Hidalgo Chávez, Effect of water temperature and pH on the concentration and time of ozone saturation, Brazilian Journal of Food Technology, 10.1590/1981-6723.15617, 21, 0, (2018).
Barbara A Amoah and Rizana M Mahroof, Ozone as a Potential Fumigant Alternative for the Management of Sitophilus oryzae (Coleoptera: Curculionidae) in Wheat , Journal of Economic Entomology, 10.1093/jee/toz071, (2019).
Mourad Krifa, Shamini Rajaganesh and William Fahy, Perspectives on textile cleanliness – detecting human sebum residues on worn clothing, Textile Research Journal, 10.1177/0040517519855323, (004051751985532), (2019).
Zijin Zhou, Sophie Zuber, Frédérique Cantergiani, Imca Sampers, Frank Devlieghere and Mieke Uyttendaele, Inactivation of Foodborne Pathogens and Their Surrogates on Fresh and Frozen Strawberries Using Gaseous Ozone, Frontiers in Sustainable Food Systems, 10.3389/fsufs.2018.00051, 2, (2018).
Jefferson V. da S. Souza, Ernandes R. de Alencar, Ana M. R. Junqueira and Gustavo P. de Oliveira, Ozone saturation and decomposition kinetics in porous medium containing different hybrids of maize, Revista Brasileira de Engenharia Agrícola e Ambiental, 10.1590/1807-1929/agriambi.v22n4p286-291, 22, 4, (286-291), (2018).
Joel Guimarães de Brito Júnior, Lêda Rita D’Antonino Faroni, Paulo Roberto Cecon, Wellingta Cristina Almeida do Nascimento Benevenuto, Augusto Aloísio Benevenuto Júnior and Fernanda Fernandes Heleno, Efficacy of ozone in the microbiological disinfection of maize grains, Brazilian Journal of Food Technology, 10.1590/1981-6723.02217, 21, 0, (2018).
Christian V. Maximiano, Ricardo Carmona, Nara O. S. Souza, Ernandes R. de Alencar and Luiz E. B. Blum, Physiological and sanitary quality of maize seeds preconditioned in ozonated water, Revista Brasileira de Engenharia Agrícola e Ambiental, 10.1590/1807-1929/agriambi.v22n5p360-365, 22, 5, (360-365), (2018).
Broadwater WT, Hoehn RC, King PH. Sensitivity of three selected bacterial species to ozone. Appl Microbiol. 1973 Sep;26(3):391-3.
Edelstein, P.H., Whittacker, R.E., Kreiling, R.I., and Howell, C.I. 1982. Efficacy of Ozone in eradication of Legionella Pneumophila from hospital plumbing fixtures. App. Environ Microbiol. , 44, 1330-1331.
Farooq, S., Akhlaque, S., 1983. Comparative response of mixed cultures of bacteria and virus to ozonation. Water Res. 17,309.
Gane R. 1936 The respiration of Bananas in the presence of ethylene. New Phytol. 36:170-178.
Gibson, C.A., Elliot, J.A. and Beckett, D.C., 1960. Ozone for controlling mold on Cheddar cheese. Canadian Dairy and Ice Cream Journal 14, pp. 24–28.
Harakeh, M.S., and Butler, M. 1983. Factors influencing the ozone inactivation.
Hoff, J.C., 1986. Inactivation of microbial agents by chemical disinfectants. EPA 600 S2-86 067. Office of Water, U.S. Environmental Protection Agency, Washington, DC;
Joret, J.C., Block, J.C., Hartemann and Richards, Y. 1982. Wastewater disinfection; Elimination of fecal bacteria and enteric viruses by Ozone. Ozone: Sci. Eng. 4, 91-99.
Kawamuram K. , Kanckom M., Hiratam T. and Taguchim K. 1986. Microbial indicators for the efficency of disinfection processes. Water Sci. Technol. 18, 175-184.
Khadre, M.A., Yousef, A.E Kim, J.-G.,2001. Microbiological aspects of ozone applications in food: a review. J. Food Sci. 66, 1242-1252
Khadre, Yousef AE. Sporicidal action of ozone and hydrogen peroxide: a comparative study. Int J Food Microbiol. 2001
Kim JG, Yousef AE, Dave S. Application of ozone for enhancing the microbiological safety and quality of foods: a review. J Food Prot. 1999 Sep;62(9):1071-87.
Kovacic P, Somanathan R. Pulmonary toxicity and environmental contamination: radicals, electron transfer, and protection by antioxidants. Rev Environ Contam Toxicol. 2009;201:41-69
Kuprianoff F. 1953. The use of ozone for the cold storage of fruit. Z. Kaltentech. 10:1-4
Laisk A, Kull O, Moldau H. Ozone concentration in leaf intercellular air spaces is close to zero. Plant Physiology 90: 1163-1167
Leopold JA, Loscalzo J.Oxidative risk for atherothrombotic cardiovascular disease. Free Radic Biol Med. 2009 Sep 12. [Epub ahead of print];
Menzel DB. Oxidation of biologically active reducing substances by ozone. Arch Environ Health. 1971 Aug;23(2):149-53.
Mirzoev EB, Kobialko VO. [Rate of free radical peroxidation of lipids, activity of adenylate cyclase and permeability of plasma membrane for Ca2+ ions in cells of peripheral blood of sheep exposed to low-level radiation] Radiats Biol Radioecol. 2009 May-Jun;49(3):261-7.
Roy D, Wong PK, Engelbrecht RS, Chian ES.Mechanism of enteroviral inactivation by ozone. Appl Environ Microbiol. 1981 Mar;41(3):718-23.
Sarti P, Avigliano L, Görlach A, Brüne B. Superoxide and nitric oxide--participation in cell communication. Cell Death Differ. 2002 Oct;9(10):1160-2;
Scott PM. 1989. Mycotoxigenic fungal contamination of cheese and other dairy products, p 193-259. In H. P. van Egmond (ed.). Mycotoxins in dairy products. Elsevier Applied Science, London.
Serra R, Abrunhosa L, Kozakiewicz Z, Venâncio A, Lima N.Use of ozone to reduce molds in a cheese ripening room.J Food Prot. 2003 Dec;66(12):2355-8.
Taniwaki MH, Hocking AD, Pitt JI, Fleet GH. Growth of fungi and mycotoxin production on cheese under modified atmospheres. Int J Food Microbiol. 2001 Aug 15;68(1-2):125-33.
Violle, H., 1929. De la sterilization de l’eau de mer par ozone: applications de cette methode pour le perufucation des coquillages contamines. Rev. Hyg. Med. Prev. 51, pp. 42–46

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