Rohit Thirumdas

Cold Plasma: A novel Non-Thermal Technology for Food Processing

In the past cold plasma is used for sterilization of sensitive materials and now it is extended to food industries as a novel technology. For years cold plasma processing has been viewed as useful for microbial inactivation while maintaining quality of fresh produce. However, this process is not effective for in vitro model food systems for inactivation of microbes or enzymes which are present in intact tissues, as it is a surface phenomenon. Cold plasma technology is also used to inactivate endogenous enzymes which are responsible for browning reactions particularly polyphenoloxidase and peroxidases. Several research investigations showed a reduced growth of microorganism via different mode of actions by etching phenomenon, cell disruption by electrophoration etc. Plasma technology is considered as modern non conventional technique which is used for the preparation of modified starches, altering its physical and chemical properties. Overall application of cold plasma for microbial destruction on different food substrates like fruits, meat products, cheese etc. was discussed. Besides this, it is also used to alter the germination rate of seeds. It is an eco-friendly process which is used in the preservation of food and other potential applications as an alternative to common techniques.

Cold Plasma: an Alternative Technology for the Starch Modification

Cold plasma is an emerging novel non-thermal technology in the sector of food processing. In the present review we will discuss the recent scientific reports on properties of cold plasma treated starches. For industrial use native starch is subject to modification to enhance the properties. This paper reviews on the mechanism of starch modification by plasma reactive species, briefly discussing its effects on properties. The effect of cold plasma on starches depends on the type of feed gas, voltage applied and treatment time. The alteration in the properties is mainly due to depolymerization and cross linking of amylose and amylopectin side chains. After plasma treatment there is decrease in molecular weight, viscosity, and gelatinization temperatures. Plasma etching increased the surface energy and enhanced the hydrophilicity of the starch granules. We can conclude that cold plasma is as alternative technology to modify the properties of starch.

Effect of low temperature plasma on the functional properties of basmati rice flour

The present study deals with the application of low temperature plasma on basmati rice flour and its effect on functional properties such as gel hydrations properties, flour hydration properties, gelatinization temperatures and antioxidant properties. The water holding capacity and water binding capacity were observed to be increased with increase in plasma power and time of treatment as the air plasma is known to make the surface more hydrophilic. XRD analysis revealed there is no significance difference in the crystalline structure after the plasma treatment. DSC shows a decrease in peak temperatures (Tp) after the treatment. Hot paste viscosities were observed to be decease from 692 to 591 BU was corresponded to decrease in peak temperature. The total polyphenolic content and reducing power was observed to be increased. The effects of plasma treatment on functional groups of polyphenols were observed by changes in absorption intensities using FTIR. This study demonstrates that the low temperature plasma treatmentis capable of improving the functional properties of basmati rice.

Effect of non-thermal plasma on physico-chemical, functional and rheological properties of rice starch

Abstract Background: In Egypt, liver diseases are one of the most prominent killers especially hepatitis virus infection, fibrosis and cirrhosis . Hepatitis has a serious health effects and alter the functions of the