个人信息Personal Information
教授
博士生导师
硕士生导师
主要任职:盘锦校区管委会副主任兼教学与科研工作部部长
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:化工学院
学科:工业催化. 物理化学
办公地点:化工实验楼B427
联系方式:18641143913
电子邮箱:guoxw@dlut.edu.cn
Defect-Enriched N,O-Codoped Nanodiamond/Carbon Nanotube Catalysts for Styrene Production via Dehydrogenation of Ethylbenzene
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论文类型:期刊论文
发表时间:2019-04-01
发表刊物:ACS APPLIED NANO MATERIALS
收录刊物:EI、SCIE
卷号:2
期号:4
页面范围:2152-2159
ISSN号:2574-0970
关键字:nanodiamond/carbon nanotube hybrid; nitrogen and oxygen codoping; structural defect; direct dehydrogenation; styrene production
摘要:Owing to the unique structure and enriched surface ketonic carbonyl group, nanodiamond (ND) shows excellent catalytic performance for dehydrogenation reaction. However, the agglomeration of predispersed ND aggregate by surface bonding force suppresses its catalytic activity. In this work, a nitrogen and oxygen codoped nanodiamond/carbon nanotube hybrid catalyst with the enriched structural defects (N,O-ND/CNT-d) has been fabricated by a facile two-step strategy including the hexamethylenetetramine (HTM)-assisted wet chemical approach and pyrolysis process, and the subsequent HNO3 treatment process. The prepared N,O-ND/CNT-d hybrid catalyst gives 16.8% styrene yield with 98.7%f selectivity and 5.2 mmol g(-1) h(-1) of steady-state styrene formation rate. It not only shows 4.7 and 1.9 times high steady-state styrene rate as compared to the parent oxidized carbon nanotube (CNT-o) and oxidized ND (ND-o), respectively, but also exhibits higher catalytic performance than the previously reported carbon-based catalysts. This is ascribed to the more accessible catalytic active sites from the isolating effect of CNT by the formation of a hybrid and the dual roles of HTM as dispersant in the wet chemical process and as nitrogen precursor in the pyrolysis process and also to the oxygen doping by HNO3 treatment, apart from the improved nucleophilicity of surface kenotic carbonyl groups and basic properties by the nitrogen doping. This work not only produces a novel and highly efficient metal-free catalyst with outstanding catalytic performance for clean and energy-efficient styrene synthesis through direct dehydrogenation of ethylbenzene under steam- and oxidant-free conditions but also presents a facile two-step strategy to fabricate other hybrids from dispersion-required carbon parents toward a variety of applications.