Nafion含量与阴离子吸附对于铂单原子层核壳结构催化剂制备的影响(英文)  

Impact of Nafion Loading and Anion Adsorption on the Synthesis of Pt Monolayer Core-Shell Catalysts

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作  者:杨莉君[1,2] Dustin Banham Elod Gyenge 叶思宇 Lijun Yang Dustin Banham Elod Gyenge Siyu Ye(Ballard Power Systems, 9000 Glenlyon Parkway, Burnaby, BC, V5J 5J8 Canada Department of Chemical and Biological Engineering, University of British Columbia, 2360 East Mall, Vancouver, British Columbia, V6T 1Z3, Canada)

机构地区:[1]巴拉德动力系统/9000Glenlyon Parkway,Burnaby,加拿大英属哥伦比亚省V5J5J8 [2]化学与生物工程学院/英属哥伦比亚大学,加拿大温哥华英属哥伦比亚省V6T123

出  处:《电化学》2017年第2期170-179,共10页Journal of Electrochemistry

基  金:Financial supports to Lijun Yang's post-doctoral fellowship by MITACS Accelerate Program;Ballard Power Systems

摘  要:本实验利用铜的欠电位沉积技术,在旋转圆盘电极上以碳负载的钯纳米颗粒为核,制备铂单原子层核壳结构催化剂.电化学测试用于表征不同Nafion含量的添加对于核壳结构催化剂制备的影响.实验证明,Nafion的存在会影响铜的欠电位沉积,铂与铜的置换反应,并决定最终制备的核壳结构催化剂的氧还原催化反应的活性.当催化剂薄层中Nafion的含量低于5%的时候,添加Nafion不但可以帮助催化剂附着在旋转圆盘电极表面,而且可以保证制备的催化剂具有较好的氧还原反应催化活性.在H_2SO_4溶液中,钯纳米颗粒的表面存在特殊的阴离子吸/脱附电化学信号峰,这些信号峰可以用来监测Nafion含量对于铂单原子层核壳结构催化剂制备的影响.Carbon supported palladium (Pd) nanoparticles were used as a model core material for the synthesis of platinum (Pt) monolayer core-shell catalysts using rotating disk electrode method and a copper (Cu) under potential deposition technique. The im- pact of Nation on the synthesis process was revealed by electrochemical testing with various Nation contents. The existence of Nation influenced the Cu under potential deposition, galvanic replacement and eventually the oxygen reduction reaction activity of the core-sheU catalyst. However, as long as the Nation content was less than 5wt% in the test film, adding Nation could help to bind catalyst onto the surface of electrode while maintaining promising catalytic activity. Unique anion adsorption/desorption peaks were observed on the surface of Pd in H2SO4 solution, which turned out to be an useful indicator to evaluate the impact of Nation on the synthesis of the core-shell catalysts.

关 键 词:核壳结构催化剂 氧气还原反应 铜欠电位沉积 Nafion含量 阴离子吸附 

分 类 号:O643.36[理学—物理化学]

 

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