期刊
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
卷 46, 期 15, 页码 9782-9789出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2020.06.303
关键词
Direct methanol fuel cell; Proton exchange membrane; High proton/methanol selectivity; Graphene quantum dot; 3D matrix topology
资金
- National Natural Science Foundation of China [21703211, 21875224]
- Natural Science Foundation of Zhejiang Province [LGG19B030001]
By incorporating GO and GQD into HBM, this study successfully enhanced the proton/methanol selectivity and improved the performance of DMFC. Compared to pristine HBM, the proton conductivity of GQD-HBM membrane increased by 17% while methanol permeability decreased by approximately 50%, leading to an increase in proton/methanol selectivity by over 80%.
The hyperbranched macromolecule (HBM) polyamide proton exchange membrane with uniform 3D matrix topology is beneficial to the enhancement of proton conductivity. In order to extend the application of HBM in direct methanol fuel cell (DMFC), graphene oxide (GO) and graphene quantum dot (GQD) are incorporated into HBM to enhance the proton/methanol selectivity of the membrane. The functional groups on GO and GQD surface would interact with -SO3H groups in HBM by the hydrogen-bond interaction and participate in the proton conductive channel construction. And the GO and GQD in the composite can effectively prevent the permeation of methanol molecules. Most important, the HBM membrane filled by GQD (GQD-HBM) can effectively avoid large scale phase separation which occurs in HBM membrane filled by GO (GO-HBM) due to the greater size of GO. Proton conductivity of GQD-HBM (0.30 S/cm) is 17% improved compared with the pristine HBM while methanol permeability is significantly reduced by ca. 50% due to the physical barrier of GQD. The proton/methanol selectivity is therefore enhanced by more than 80% and the DMFC performance is also significantly enhanced. (C) 2020 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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