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双中心MOFs衍生的Co-ZnO@CN纳米材料作为电化学催化剂用于氧还原反应的研究
引用本文:陈君,隆继兰. 双中心MOFs衍生的Co-ZnO@CN纳米材料作为电化学催化剂用于氧还原反应的研究[J]. 分子催化, 2017, 31(5): 463-471
作者姓名:陈君  隆继兰
作者单位:西华师范大学化学化工学院化学合成与污染控制四川省重点实验室,四川南充,637000
基金项目:四川省教育厅重点项目(466768);西华师范大学英才科研基金项目(463123);西华师范大学基本科研业务费专项(416529).
摘    要:采用水热法合成了一系列的Co-Zn-MOF材料,随后将其在高温下热解,采用自模板的方式得到双中心MOFs衍生的Co-ZnO@CN纳米催化剂.通过调节前驱体的比例和热解温度,优化了制备Co-ZnO@CN纳米催化剂的条件.利用粉末X射线衍射(XRD)和X射线光电子能谱(XPS)对Co-ZnO@CN纳米催化剂的结构及表面化学性质进行表征,采用扫描电子显微镜(SEM)和能量色散谱仪(EDS)考察了Co-ZnO@CN纳米催化剂的形貌和表面化学元素的种类和组成.通过氧还原反应(ORR)测试了催化剂的催化性能.实验结果表明当热解温度为800℃,Co与Zn摩尔质量之比为1∶2时,所得到的Co-ZnO(1∶2)@CN-800纳米催化剂的催化活性最高,其起始电势和半波电势分别为0.90和0.78 V,此外,通过计算表明该纳米催化剂在氧还原反应中氧分子还原过程遵循4e-反应路径.

关 键 词:燃料电池  氧还原反应  氮掺杂碳纳米材料  Co-ZnO@CN
收稿时间:2017-07-21
修稿时间:2017-08-10

Bi-centered MOFs-derived Co-ZnO@CN Nano-material as Efficient Electrocatalyst for Oxygen Reduction Reaction
CHEN Jun and LONG Ji-lan. Bi-centered MOFs-derived Co-ZnO@CN Nano-material as Efficient Electrocatalyst for Oxygen Reduction Reaction[J]. Journal of Molecular Catalysis (China), 2017, 31(5): 463-471
Authors:CHEN Jun and LONG Ji-lan
Affiliation:Chemical Synthesis and Pollution Control Key Laboratory of Sichuan Province, College of Chemistry and Chemical Engineering, China West Normal University, Nanchong 637000, China and Chemical Synthesis and Pollution Control Key Laboratory of Sichuan Province, College of Chemistry and Chemical Engineering, China West Normal University, Nanchong 637000, China
Abstract:A series of Co-Zn-MOF materials are synthesized by using hydrothermal method, then these materials are employed as self-templates to synthesize non-precious bi-centered MOFs-derived Co-ZnO@CN alloy nanocatalysts at high temperatures. The preparation conditions of Co-ZnO@CN materials are optimized by adjusting the molar ratio of precursor and thermolysis temperatures. The XRD and XPS are employed to characterize the structures and surface chemical state of Co-ZnO@CN catalysts, and the SEM and EDS are employed to analyze the morphology and the components of Co-ZnO@CN catalysts, and then these materials are used for ORR to test the catalytic performance. The experimental results indicate that Co-ZnO(1:2)@CN-800 exhibits the optimal activity toward ORR, the onset and half-wave potential of Co-ZnO(1:2)@CN-800 are 0.90 and 0.78 V, respectively. Moreover, The calculation indicates that the reduction of oxygen molecules follow the 4e- route on this catalyst.
Keywords:fuel cells  oxygen reduction reaction  N-doped carbon nanomaterials  Co-ZnO@CN
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