Generation of Species-Specific High-Strength Plasma Activated Water at Neutral pH and its Antimicrobial Characteristics

IF 2.6 3区 物理与天体物理 Q3 ENGINEERING, CHEMICAL
Bhavadharini Boopathy, Debapriya Mukherjee, V. Nishanth, Atish Roy Chowdhury, Dipshikha Chakravortty, Lakshminarayana Rao
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Abstract

Understanding the individual effects of species in plasma activated water (PAW) is indeed necessary for its selective application as an antimicrobial agent. The current study describes a setup and a methodology to generate species-specific high strength PAW at neutral pH. Three types of PAW i.e., ROS-rich PAW (Reactive Oxygen Species-rich Plasma Activated Water), RNS-rich PAbW (Reactive Nitrogen Species- Rich Plasma Activated buffer Water) and hs-PAbW (High strength Plasma Activated buffer Water) were generated in the developed set-up, the concentration of species was measured, shelf-life studies under ambient condition were carried out and each water type was studied for its antimicrobial activity. Results show that, after 60 min of activation, hs-PAbW had ROS and RNS concentrations of 215 mg/l and 650 mg/l respectively. The ROS-rich PAW had ROS and RNS concentration of 218 mg/l and 0 mg/l respectively. The RNS-rich PAbW had ROS and RNS concentration of 16 mg/l and 858 mg/l respectively after 60 min of activation. Antimicrobial studies showed that individual species i.e., high concentrations of ROS alone and high concentrations of RNS alone, were ineffective in achieving microbial degradation, whereas hs-PAbW containing high concentrations of both ROS and RNS showed significant antimicrobial effect. This study marks an important step in generating high concentrations of species-specific PAW, which is crucial to understand the mechanistic pathways of bacterial death in PAW systems.

Abstract Image

Abstract Image

在中性 pH 值下生成物种特异性高强度等离子活化水及其抗菌特性
要选择性地将等离子活化水(PAW)用作抗菌剂,就必须了解等离子活化水(PAW)中物种的个体效应。本研究介绍了在中性 pH 值下生成物种特异性高强度等离子活化水的装置和方法。在开发的装置中生成了三种类型的 PAW,即富含 ROS 的 PAW(富含活性氧的等离子活化水)、富含 RNS 的 PAbW(富含活性氮的等离子活化缓冲水)和 hs-PAbW(高强度等离子活化缓冲水),测量了物种的浓度,进行了环境条件下的货架期研究,并研究了每种水的抗菌活性。结果表明,活化 60 分钟后,hs-PAbW 的 ROS 和 RNS 浓度分别为 215 毫克/升和 650 毫克/升。富含 ROS 的 PAW 的 ROS 和 RNS 浓度分别为 218 毫克/升和 0 毫克/升。活化 60 分钟后,富含 RNS 的 PAbW 的 ROS 和 RNS 浓度分别为 16 毫克/升和 858 毫克/升。抗菌研究表明,单个物种,即高浓度的 ROS 和高浓度的 RNS 都不能有效地实现微生物降解,而同时含有高浓度 ROS 和 RNS 的 hs-PAbW 则显示出显著的抗菌效果。这项研究标志着在生成高浓度物种特异性 PAW 方面迈出了重要一步,这对于了解 PAW 系统中细菌死亡的机理途径至关重要。
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来源期刊
Plasma Chemistry and Plasma Processing
Plasma Chemistry and Plasma Processing 工程技术-工程:化工
CiteScore
5.90
自引率
8.30%
发文量
73
审稿时长
6-12 weeks
期刊介绍: Publishing original papers on fundamental and applied research in plasma chemistry and plasma processing, the scope of this journal includes processing plasmas ranging from non-thermal plasmas to thermal plasmas, and fundamental plasma studies as well as studies of specific plasma applications. Such applications include but are not limited to plasma catalysis, environmental processing including treatment of liquids and gases, biological applications of plasmas including plasma medicine and agriculture, surface modification and deposition, powder and nanostructure synthesis, energy applications including plasma combustion and reforming, resource recovery, coupling of plasmas and electrochemistry, and plasma etching. Studies of chemical kinetics in plasmas, and the interactions of plasmas with surfaces are also solicited. It is essential that submissions include substantial consideration of the role of the plasma, for example, the relevant plasma chemistry, plasma physics or plasma–surface interactions; manuscripts that consider solely the properties of materials or substances processed using a plasma are not within the journal’s scope.
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