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氮掺杂石墨烯负载锰催化分解高湿臭氧性能(英文)

Manganese Supported Nitrogen-Doped Graphene and Performance of Catalytic Decomposition High-Humidity Ozone

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【作者】 陈冬斌丁静亚张国林范兰孙林程峰刘永龙陈依柯许琦

【Author】 CHEN Dong-Bin;DING Jing-Ya;ZHANG Guo-Lin;FAN Lan;SUN Lin;CHENG Feng;LIU Yong-Long;CHEN Yi-Ke;XU Qi;School of Chemistry and Chemical Engineering, Yancheng Institute of Technology;School of Mechanical Engineering, Yancheng Institute of Technology;Yancheng Lanfeng Environmental Engineering Technology Co., Ltd.;Key Laboratory for Advanced Technology in Environmental Protection of Jiangsu Province,Yancheng Institute of Technology;

【通讯作者】 许琦;

【机构】 盐城工学院化学化工学院盐城工学院机械工程学院江苏兰丰环保科技有限公司盐城工学院江苏省新型环保重点实验室

【摘要】 以三聚氰胺为氮源,通过热退火氧化石墨烯(GO)合成氮掺杂石墨烯(NG),使用浸渍沉淀法制备NG负载锰(Mn/NG)。在相对湿度(RH)为80%,臭氧初始浓度为85.7 mg·m-3条件下,反应24 h后,臭氧的分解率依旧保持在80%以上。在低RH环境下,其催化活性又能恢复到初始状态。氮掺杂不但为催化剂制造了结构缺陷,同时氮原子的孤对电子增大了氧空位电子密度,降低了水分子的吸附能,提高了催化剂的抗湿性能。

【Abstract】 Nitrogen-doped graphene(NG) was synthesized by thermal annealing of graphene oxide(GO) using melamine as the nitrogen source, and NG-loaded manganese(Mn/NG) was prepared using the immersion precipitation method. At 80% relative humidity(RH) and an initial ozone concentration of 85.7 mg·m-3, the decomposition rate of ozone remained above 80% after 24 h of reaction. Under the low RH environment, the catalytic activity can be restored to the initial state again. The nitrogen doping not only created structural defects for the catalyst, but also the lone pair electrons of nitrogen atoms increased the electron density of oxygen vacancies, reduced the adsorption energy of water molecules, and improved the moisture resistance of the catalyst.

【关键词】 氮掺杂石墨烯臭氧分解
【Key words】 nitrogen-doped grapheneozone decompositionmanganese
  • 【文献出处】 无机化学学报 ,Chinese Journal of Inorganic Chemistry , 编辑部邮箱 ,2022年10期
  • 【分类号】X515;O643.36
  • 【下载频次】85
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