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Surveying the utilization of cold plasma and plasma-activated water on food pigments, bioactive compounds, enzymes, vitamins, fatty acid, and essential oils: Considerations, mechanisms, and future trends

Shiva Vedaei, Arash Dara

2025Food Chemistry X12 citationsDOIOpen Access PDF

Abstract

Cold plasma (CP) technology has emerged as a novel, non-thermal, and eco-friendly method for enhancing food processing while reducing nutrient loss and degradation compared to traditional methods. This review collates the latest information on the effects of cold plasma's reactive species on food constituents, including bioactive compounds, pigments (chlorophyll, betalain, carotenoids, anthocyanins), enzymes, vitamins, fatty acid profiles, and essential oils. It also explores the mechanisms and functional properties of various cold plasma types (dielectric barrier discharge, jet plasma) and plasma-activated water, highlighting key factors like time, voltage, frequency, and gas to enhance the technology's efficiency. Even so, a thorough insight into the impact of cold plasma on food constituents and the underlying interaction mechanisms remains essential. Understanding the limitations of cold plasma treatment is crucial for advancing the recognition and acceptance of this modern technology.

Topics & Concepts

Food scienceChemistryPigmentEnzymeBiochemistryFatty acidOrganic chemistryPlasma Applications and DiagnosticsDye analysis and toxicity
Surveying the utilization of cold plasma and plasma-activated water on food pigments, bioactive compounds, enzymes, vitamins, fatty acid, and essential oils: Considerations, mechanisms, and future trends | Litcius