用于生物材料表面处理的大气等离子体射流

IF 1.1 Q3 PHYSICS, MULTIDISCIPLINARY

Journal of Physics Communications Pub Date : 2022-10-10 DOI:10.1088/2399-6528/ac98f3

Mahmood Nasser, Ban AlMandalawi, L. Nasser

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引用次数: 1

摘要

建立了直流（DC）驱动的低温大气压等离子体（LTAPP）射流装置，并用于对大肠杆菌（E.coli）进行杀菌。等离子体射流的一般特性，如长度和温度，首先进行了测试，发现与等离子体射流的工作流动模式（层流或湍流）密切相关。测量了各种气体混合物的光学发射光谱，以确认活性自由基的存在，这对灭菌成功至关重要。发现纯氦气或氦气与少量氧气（6.25%）的组合具有最高强度的杀菌物质，如原子氧（O）和氢氧化物（OH）。然后将这些混合物用于处理先前在培养皿中生长的大肠杆菌。灭菌是通过在短时间内重复处理细菌10 s，持续5-10轮来完成的。当细菌在两轮之间有足够的时间休息时，可以获得最佳结果。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Atmospheric plasma jet for surface treatment of biomaterials

A direct current (DC) powered low-temperature atmospheric pressure plasma (LTAPP) jet device was built and used to sterilize Escherichia coli (E. coli) bacteria. The plasma jet’s general properties, such as length and temperature, were first tested and found to be strongly related to the plasma jet’s operational flow mode (laminar or turbulent flow). The optical emission spectra of various gas mixtures were measured to confirm the presence of active radicals, which is critical for sterilization success. Pure helium gas or a combination of helium with a small percentage of oxygen (6.25%) was found to have the highest intensities of bactericidal species such as atomic oxygen (O) and hydroxide (OH). These mixtures were then used to treat E. coli bacteria previously grown in a Petri dish. Sterilization was accomplished by repeatedly treating the bacteria for 10 s for 5–10 rounds for short periods. The best results were obtained when the bacteria had enough time to rest between rounds.

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