物理化学学报2021,Vol.37Issue(9):218-224,7.DOI:10.3866/PKU.WHXB202009049
催化层掺杂共价有机框架材料提升高温聚电解质膜燃料电池性能
Enhanced Performance and Durability of High-Temperature Polymer Electrolyte Membrane Fuel Cell by Incorporating Covalent Organic Framework into Catalyst Layer
摘要
Abstract
Proton exchange membrane fuel cells(PEMFCs)are considered one of the most promising technologies for efficient power generation in the 21st century.However,several challenges for the PEMFC power technology are associated with low operating temperature,such as complex water management and strict fuel purification.PEMFC operating at high temperature(HT,100-200℃)has in recent years been recognized as a promising solution to meet these technical challenges.At present,HT-PEMFC based on phosphoric acid(PA)-doped polybenzimidazole(PBI)is considered to be the trend of PEMFC future development due to its good environmental tolerance and simplified water/thermal management.In this HT-PEMFC system,the proton transfer in both catalyst layer(CL)and membrane relies on liquid PA.Thus,a proper amount of PA is required to impregnate the membrane and the CL in order to achieve good proton conductivities in an HT-PEMFC system.Therefore,reducing the loss of PA electrolyte in the membrane electrode assembly(MEA)is crucial to maintaining the good durability of HT-PEMFC.In this work,a Schiff base networks(SNW)-type covalent organic framework(COF)material is proposed as the CL additive to enhance the durability of HT-PEMFC.The well-defined porous structure and tailored functional groups endow the proposed COF network with not only excellent PA retention capacity but also good proton transfer ability,thus leading to the superior durability of the HT-PEMFC in an accelerated stress test(AST).After 100 h operation at heavy load(0.2 V)and high flow rate of air purge,the accumulative PA loss of the COF-based MEA was~4.03 mg,which is almost an order of magnitude lower than that of the conventional MEA(~13.02 mg),consequently leading to a much lower degradation rate of current density(~0.304 mA·cm-2·h-1)than that of the conventional MEA(~1.01 mA·cm-2·h-1).Moreover,it was found that the electrode incorporating a proper amount(5%-10%,mass fraction)of the COF material possessed a higher electrochemical surface area(ECSA)and lower ohmic and charge transfer resistances,which further improved the performance of the HT-PEMFC.At the usual operating voltage of 0.6 V,the current density of the MEA containing 10%COF was up to 0.361 A·cm-2,which is~30%higher than that of the conventional MEA at 150℃,H2/Air and ambient pressure.These results indicate that incorporating COF materials into CL is a promising strategy to enhance the performance and durability of HT-PEMFC.关键词
高温聚电解质膜燃料电池/膜电极/共架有机框架/磷酸流失/稳定性Key words
High temperature polymer electrolyte fuel cell/Membrane electrode assembly/Covalent organic framework/Phosphoric acid leakage/Durability分类
化学化工引用本文复制引用
田立亮,张玮琦,解政,彭凯,马强,徐谦,Sivakumar Pasupathi,苏华能..催化层掺杂共价有机框架材料提升高温聚电解质膜燃料电池性能[J].物理化学学报,2021,37(9):218-224,7.基金项目
国家重点研发计划(2018YFE0121200),国家自然科学基金(21676126)和江苏高校优势学科建设工程项目(PAPD)资助 (2018YFE0121200)
