N.N. Misra scite author profile

Non-thermal plasma (NTP) is electrically energized matter, composed of highly reactive species including gas molecules, charged particles in the form of positive ions, negative ions, free radicals, electrons and quanta of electromagnetic radiation (photons) at near-room temperature. NTP is an emerging nonthermal technology with potential applications for decontamination in the food industries. An upsurge in the research activities for plasma based inactivation of food borne pathogens is evident in the recent years. These studies have shown that NTP can be used for the surface decontamination of raw produce, dried nuts and the packaging materials etc. This paper reviews the action of plasma agents on the microbial classes and describes proven and potential applications in food processing. Novel developments in the technology and a future outlook for the application to foods are discussed.

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Applications of cold plasma technology in food packaging

Pankaj

Bueno-Ferrer

Misra

et al. 2014

Trends in Food Science & Technology

404

175

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In-package atmospheric pressure cold plasma treatment of strawberries

Misra¹,

Patil²,

Moiseev

et al. 2014

Journal of Food Engineering

313

146

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The ability to generate low temperature plasma at atmospheric pressure offers new opportunities to decontaminate biological materials, including fresh foods. In this study, strawberries were treated with atmospheric cold plasma (ACP), generated with a 60 kV dielectric barrier discharge (DBD) pulsed at 50 Hz, across a 40 mm electrode gap, generated inside a sealed package containing ambient air (42% relative humidity). The current-voltage characteristics revealed that the plasma operated in the filamentary regime. The background microflora (aerobic mesophillic bacteria, yeast and mould) of strawberries treated for 5 min was reduced by 2 log 10 within 24 h of post-ACP treatment. The respiration rate of ACP treated produce, measured by the closed system approach, showed no significant increase. The effect of ACP on strawberry colour and firmness was insignificant.

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Cold Plasma for Effective Fungal and Mycotoxin Control in Foods: Mechanisms, Inactivation Effects, and Applications

Misra

Yadav

Roopesh

et al. 2018

Comp Rev Food Sci Food Safe

223

147

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Cold plasma treatment is a promising intervention in food processing to boost product safety and extend the shelf‐life. The activated chemical species of cold plasma can act rapidly against micro‐organisms at ambient temperatures without leaving any known chemical residues. This review presents an overview of the action of cold plasma against molds and mycotoxins, the underlying mechanisms, and applications for ensuring food safety and quality. The cold plasma species act on multiple sites of a fungal cell resulting in loss of function and structure, and ultimately cell death. Likewise, the species cause chemical breakdown of mycotoxins through various pathways resulting in degradation products that are known to be less toxic. We argue that the preliminary reports from cold plasma research point at good potential of plasma for shelf‐life extension and quality retention of foods. Some of the notable food sectors which could benefit from antimycotic and antimycotoxin efficacy of cold plasma include, the fresh produce, food grains, nuts, spices, herbs, dried meat and fish industries.

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Cold plasma interactions with enzymes in foods and model systems

Misra¹,

Pankaj

Segat

et al. 2016

Trends in Food Science & Technology

284

148

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Plasma in Food and Agriculture

Misra¹,

2016

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Atmospheric pressure cold plasma (ACP) treatment of wheat flour

Misra¹,

et al. 2015

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In-package atmospheric pressure cold plasma treatment of cherry tomatoes

Misra

Keener

Bourke

et al. 2014

Journal of Bioscience and Bioengineering

239

111

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N.N. Misra

Nonthermal Plasma Inactivation of Food-Borne Pathogens

Applications of cold plasma technology in food packaging

In-package atmospheric pressure cold plasma treatment of strawberries

Cold Plasma for Effective Fungal and Mycotoxin Control in Foods: Mechanisms, Inactivation Effects, and Applications

Cold plasma interactions with enzymes in foods and model systems

Plasma in Food and Agriculture

Atmospheric pressure cold plasma (ACP) treatment of wheat flour

In-package atmospheric pressure cold plasma treatment of cherry tomatoes

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