Ruohao Sun scite author profile

As a new technology for food processing, plasma has good prospects for protein modification. This study investigated the effect of plasma on the activity of the α-amylase. The composition of the active particles in air plasma generated by spark discharge was analyzed and determined. Furthermore, the quantitative analysis of the active particles such as H2O2, O3, and -OH was made by the chemical detection method. Powdered α-amylase was treated with plasma in various conditions, in which α-amylase and the variation of α-amylase activity under the action of air plasma were quantitatively analyzed. The results showed that the concentration of active particles in the system was positively correlated with the action time for air plasma. After 5 minutes of plasma action, the concentration of O3 and H2O2 was large enough for food disinfection, but the concentration of -OH was smaller and its lifetime was extremely short. Moreover, it was determined that the optimum action time for the activation of solid powdered α-amylase by air plasma was 120 seconds. With higher energy, the air plasma acts directly on solid powdered α-amylase to destroy its spatial structure, resulting in enzyme inactivation, sterilization, and disinfection.

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Forecasting Milk Delivery to Dairy- How Modern Statistical and Machine Learning Methods Can Contribute

Hansen

Sun³

et al. 2022

SSRN Journal

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Ruohao Sun

Physicochemical properties and microstructural behaviors of rice starch/soy proteins mixtures at different proportions

Sensory attributes and characterization of aroma profiles of fermented sausages based on fibrous-like meat substitute from soybean protein and Coprinus comatus

Study on Active Particles in Air Plasma and Their Effect on α-Amylase

Forecasting Milk Delivery to Dairy- How Modern Statistical and Machine Learning Methods Can Contribute

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