一种电催化降解酚类环境污染物的催化剂的制备方法
阅读说明:本技术 一种电催化降解酚类环境污染物的催化剂的制备方法 (Preparation method of catalyst for electrocatalytic degradation of phenolic environmental pollutants ) 是由 赵金秀 任祥 薛晓东 张森 赵磊 闫涛 赵燕芳 魏琴 于 2020-07-01 设计创作,主要内容包括:酚类化合物是指芳香烃中苯环上的氢原子被羟基取代所生成的化合物,根据其分子所含的羟基数目可分为一元酚和多元酚。酚类污染物催化降解是环境催化化学领域的热点问题,电催化降解酚类污染物对评价环境生态学具有重要的科学和实践意义。酚类有机污染物在水体中造成的污染,若不经过处理,直接排放、灌溉农田则可污染大气、水、土壤和食品,严重危害生态环境和人民生命安全。该电催化过程用酚类有机污染物的电催化降解,实现了酚类有机污染物的降解,为构建环境友好型社会提供了新思路。(The phenolic compound is a compound produced by substituting a hydrogen atom on a benzene ring with a hydroxyl group in an aromatic hydrocarbon, and is classified into a monohydric phenol and a polyhydric phenol according to the number of hydroxyl groups contained in the molecule. The catalytic degradation of the phenol pollutants is a hot problem in the field of environmental catalytic chemistry, and the electrocatalytic degradation of the phenol pollutants has important scientific and practical significance for evaluating environmental ecology. The pollution caused by the phenol organic pollutants in the water body can pollute the atmosphere, water, soil and food if the phenol organic pollutants are directly discharged and irrigated to farmlands without being treated, and the ecological environment and the life safety of people are seriously harmed. The electrocatalysis process uses electrocatalysis degradation of the phenol organic pollutants, realizes degradation of the phenol organic pollutants, and provides a new idea for constructing an environment-friendly society.)
技术领域
本发明涉及多种非金属掺杂一种催化剂的制备方法及应用领域,具体涉及一种制备C,P-MoO3纳米片催化剂的方法及其在电催化降解酚类环境污染物领域的应用。
背景技术
芳烃的含羟基衍生物,根据其挥发性分挥发性酚和不挥发性酚。自然界中存在的酚类化合物大部分是植物生命活动的结果,植物体内所含的酚称内源性酚,其余称外源性酚。酚类化合物都具有特殊的芳香气味,均呈弱酸性,在环境中易被氧化。含酚废水中以苯酚和甲酚的含量最高,因此,环境监测常以苯酚和甲酚等挥发性酚作为污染指标。电催化过程用于酚类有机污染物的降解,不仅实现了零污染降解,而且为构建环境友好型社会提供了新思路。
多掺杂催化剂的研发对于纳米材料、环境催化等领域具有重要意义。传统的单一催化剂面临着催化效率不高,催化效果不好等问题,因此发展高效的掺杂态催化剂对催化领域有着重要的指导意义,单一掺杂对催化剂的性能提升不够明显,因此发展多掺杂催化剂势在必行。