Evaluation of Reactive Oxygen Species (ROS) Generated on the Surface of Copper Using Chemiluminesence

Ken Hirota, Hiroya Tanaka, Taika Maeda, Kazuhiko Tsukagoshi, Hiroshi Kawakami, Takashi Ozawa, Masahiko Wada
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Abstract

The antibacterial activity of copper is well-known from an ancient civilization, however, its biocidal mechanism has not been necessarily elucidated. Notwithstanding up to now, mainly 4 processes have been proposed. Among them, it is cleared that 4 kinds of reactive oxygen species (ROS): hydroxyl radical ·OH, hydrogen per oxide H2O2, superoxide anion ·O-2 and singlet oxygen 1O2, play an important role for contact-killing of bacteria, viruses and fungi. In this paper, generation of ROS on the surfaces of copper plates heated from room temperature to 673 K for 4.2 × 102 s in air, was investigated using the chemiluminescence. ROS have been evaluated by selecting the most suitable scavengers, such as 2-propanol for ·OH, sodium pyruvate for H2O2, nitro blue tetrazolium for ·O-2, and sodium azide NaN3 for 1O2. At the same time the outermost surface of copper, on which thin film of cuprous oxide Cu2O was first formed and then cupric oxide CuO was laminated on Cu2O, was examined by thin-film XRD and TEM analysis to estimate the amounts and kinds of copper oxides. It was found that the most amounts of ROS were obtained for the 573 K-heated Cu plate and they were composed of ·OH, H2O2, and ·O-2.
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化学发光法评价铜表面活性氧(ROS)的生成
铜的抑菌活性在古代文明中就已为人所知,但其杀菌机理却一直未被阐明。尽管到目前为止,主要提出了4种处理方法。其中,羟基自由基·OH、过氧化氢H2O2、超氧阴离子·O-2和单线态氧1O2 4种活性氧(ROS)对细菌、病毒和真菌的接触杀灭起重要作用。本文用化学发光法研究了从室温加热到673 K,在空气中加热4.2 × 102 s的铜板表面活性氧的生成。通过选择最合适的清除剂,如2-丙醇对·OH的清除,丙酮酸钠对H2O2的清除,硝基蓝四氮唑对·O-2的清除,叠氮化钠对1O2的清除,对活性氧进行了评价。同时,通过薄膜XRD和透射电镜分析,在铜的最外层先形成氧化亚铜Cu2O薄膜,然后在Cu2O上层合氧化亚铜CuO,以估计铜氧化物的数量和种类。结果表明,573 k加热Cu板的活性氧含量最高,主要由·OH、H2O2和·O-2组成。
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