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日期：2021-09-13

钟达忠，助理研究员

邮箱：zhongdazhong@tyut.edu.cn

地址：山西省太原市迎泽西大街79号太原理工大学迎西校区博学楼b座，030024

研究方向：电催化

【个人简介】

钟达忠，男，1992年生，助理研究员。2014年本科毕业于太原理工大学，2020年于太原理工大学取得博士学位，博士期间赴天津大学巩金龙教授课题组联合培养，2021年6月起在太原理工大学十大信誉好的平台任教。主要研究方向为电催化剂的设计合成及其二氧化碳还原，电解水制氢等性能研究。相关研究成果发表在nano res., angew. chem. int. ed., j. mater. chem. a, j. chem. phys.等学术期刊。

【科研论文】

[1] dazhong zhong^#, tan li^#, dong wang, lina li, jiancheng wang, qiang zhao* and jinping li*. strengthen metal-oxygen covalency of cofe-layered double hydroxide for efficient mild oxygen evolution.2021, nano research. https://doi.org/10.1007/s12274-021-3451-7.

[2] dazhong zhong^#, zhijian zhao^#, qiang zhao^#, dongfang cheng, bin liu, gong zhang, wanyu deng, hao dong, lei zhang, jinping li*, and jinlong gong*, coupling of cu(100) and (110) facets promotes carbon dioxide conversion to hydrocarbons and alcohols. angew. chem. int. ed. 2021, 133, 4929-4935.

[3] dazhong zhong, lei zhang, qiang zhao, dongfang cheng, wanyu deng, bin liu, gong zhang, hao dong, xintong yuan, zhijian zhao, jinping li, jinlong gong*, concentrating and activating carbon dioxide over aucu aerogel grain boundaries. j. chem. phy.2020, 152, 204703.

[4] dazhong zhong^#, lei zhang^#, chengcheng li, dandan li, congcong wei, qiang zhao, jinping li*, and jinlong gong*, nanostructured nife (oxy)hydroxide with easily oxidized ni towards efficient oxygen evolution reaction. j. mater. chem. a2018, 6, 16810-16817.

[5] dazhong zhong, lin liu, dandan li, congcong wei, qiang wang, genyan hao, qiang zhao*, and jinping li*, facile and fast fabrication of iron-phosphate supported on nickel foam as a highly efficient and stable oxygen evolution catalyst. j. mater. chem. a2017, 5, 18627-18633.

[6] qiang zhao, dazhong zhong, lin liu, dandan li, genyan hao, jinping li*, facile fabrication of robust 3d fe–nise nanowires supported on nickel foam as a highly efficient, durable oxygen evolution catalyst. j. mater. chem. a 2017, 5, 14639-14645.

[7] congcong wei^#, dazhong zhong^#, dandan li, genyan hao, guang liu, jinping li, qiang zhao, cu_2-xse@cuo core-shell assembly grew on copper foam for efficient oxygen evolution. int. j. hydrogen energy 2019, 44, 31979-31986.

[8] qiang zhao, lin liu, dandan li, dazhong zhong, genyan hao, jinping li*, in-situ synthesis of ag-pi oxygen-evolving catalyst in phosphate environment for water splitting. int. j. hydrogen energy 2017, 42, 19935-19941.

[9] dandan li, congcong wei, qiang wang, lin liu, dazhong zhong, genyan hao, jinping li, qiang zhao*, in-situ ammonia-modulated silver oxide as efficient oxygen evolution catalyst in neutral organic carboxylate buffer. int. j. hydrogen energy2018, 43, 14379-14387.

[10] dandan li, congcong wei, qiang wang, lin liu, dazhong zhong, genyan hao, zhijun zuo, qiang zhao*, oxygen evolution on in situ selective formation of ago: plane is the key factor. j. phy. chem. c 2019, 123, 10967-10973.

[11]qiang zhao*, wenjun guo, fengyu liu, lin liu, dandan li, dazhong zhong, genyan hao, in situ fabrication of nanostructured au–bi as high-efficient electrocatalyst for water splitting. int. j. hydrogen energy 2019, 44, 14938-14944.

[12]qiang wang, congcong wei, dandan li, wenjun guo, dazhong zhong, qiang zhao*, feni-based bimetallic mil-101 directly applicable as an efficient electrocatalyst for oxygen evolution reaction. microporous mesoporous mater. 2019, 286, 92-97.

[13] wenjun guo, dandan li, dazhong zhong, shuai chen, genyan hao, guang liu, jinping li, qiang zhao*, loading feooh on ni(oh)₂ hollow nanorods to obtain a three-dimensional sandwich catalyst with strong electron interactions for an efficient oxygen evolution reaction. nanoscale 2020, 12, 983-990.

[14] tao zhao, dong wang, chen cheng, dazhong zhong, genyan hao, guang liu, jinping li, qiang zhao*, preparation of a dual‐mof heterostructure (zif@mil) for enhanced oxygen evolution reaction activity. chemistry–an asian journal 2021, 16, 64-71.

[15] tao zhao, chen cheng, dong wang, dazhong zhong, genyan hao, guang liu, jinping li, qiang zhao*, preparation of a bimetallic nife‐mof on nickel foam as a highly efficient electrocatalyst for oxygen evolution reaction. chemistryselect 2021, 6, 1320-1327.