青岛科技大学  English 
逄贝莉
赞  

副教授 硕士生导师  

教师拼音名称:pangbeili

电子邮箱:

入职时间:2016-09-28

所在单位:材料物理教研室

学历:博士研究生

性别:女

学位:工学博士

职称:副教授

主要任职:材料物理教研室主任

毕业院校:韩国忠南大学

移动电话:

邮箱:

手机版

访问量:

最后更新时间:..

Molten salt-assisted carbonization and unfolding of Fe, Co-codoped ZIF-8 to engineer ultrathin graphite flakes for bifunctional oxygen electrocatalysis

关键字:DOPED CARBON NANOTUBES; REDUCTION REACTION; ORR ELECTROCATALYST; MESOPOROUS CARBON; NITROGEN; CATALYSTS; PERFORMANCE; ALKALINE; NANOPARTICLES; NANOFIBERS

摘要:Zeolitic imidazolate frameworks (ZIFs) are already utilized to synthesis precursors for transition metal and nitrogen co-doped carbon catalysts. However, there are few reports on deliberately tailoring catalyst structure except for the hierarchical pores formed from Zn evaporation during the pyrolysis. Herein, NaCl salt-assisted carbonization and unfolding of Fe, Co-codoped ZIF-8 polyhedron (FeCo/ZIF-8) result in ultra-thin Fe, Co, N-codoped graphite flake (FeCo/NG), while FeCo/ZIF-8 pyrolysis without NaCl yields Fe, Co, N-codoped carbon spheres (FeCo/NC). Because of the high specific surface area, porosity, and degree of defects, the active site is further exposed. The synthesized FeCo/NG demonstrates excellent oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) properties with half-wave potential (E-1/2) at 0.88 V and overpotential at 460 mV and good cycling stability, superior to those of FeCo/NC. In addition, the assembled Zn-air batteries with FeCo/NG catalysts deliver high peak power density at 109 mW cm(-2), specific capacity at 783 mAh g(-1) and an operating time for 100 h. The study will provide a feasible synthesis method to design high-performance electrocatalysts by deliberate tailoring structures with molten salt-assisted carbonization and unfolding of ZIFs. (C) 2022 Published by Elsevier B.V.

卷号:920

期号:

是否译文:

崂山校区 - 山东省青岛市松岭路99号   
四方校区 - 山东省青岛市郑州路53号   
中德国际合作区(中德校区) - 山东省青岛市西海岸新区团结路3698号
高密校区 - 山东省高密市杏坛西街1号   
济南校区 - 山东省济南市文化东路80号©2015 青岛科技大学    
管理员邮箱:master@qust.edu.cn