Poly(fluorenyl aryl piperidinium) membranes and ionomers for anion exchange membrane fuel cells

Authors
Chen, NanjunWang, Ho HyunKim, Sun PyoKim, Hae MinLee, Won HeeHu, ChuanBae, Joon YongSim, Eun SeobChung, Yong-ChaeJang, Jue-HyukYoo, Sung JongZhuang, YongbingLee, Young Moo
Issue Date
2021-04
Publisher
Nature Publishing Group
Citation
Nature Communications, v.12, no.1
Abstract
Low-cost anion exchange membrane fuel cells have been investigated as a promising alternative to proton exchange membrane fuel cells for the last decade. The major barriers to the viability of anion exchange membrane fuel cells are their unsatisfactory key components-anion exchange ionomers and membranes. Here, we present a series of durable poly(fluorenyl aryl piperidinium) ionomers and membranes where the membranes possess high OH- conductivity of 208 mS cm(-1) at 80 degrees C, low H-2 permeability, excellent mechanical properties (84.5 MPa TS), and 2000 h ex-situ durability in 1 M NaOH at 80 degrees C, while the ionomers have high water vapor permeability and low phenyl adsorption. Based on our rational design of poly(fluorenyl aryl piperidinium) membranes and ionomers, we demonstrate alkaline fuel cell performances of 2.34 W cm(-2) in H-2-O-2 and 1.25 W cm(-2) in H-2-air (CO2-free) at 80 degrees C. The present cells can be operated stably under a 0.2 A cm(-2) current density for similar to 200 h. Developing high-performance anion exchange membranes and ionomers is crucial for low-cost alkaline fuel cells. Here, the authors explore rigid and high ion conductive poly(fluorenyl aryl piperidinium) copolymers, extending their applications to anion exchange membrane fuel cells.
Keywords
HIGH-PERFORMANCE; WATER TRANSPORT; POLYMER; DURABILITY; MORPHOLOGY
ISSN
2041-1723
URI
https://pubs.kist.re.kr/handle/201004/117189
DOI
10.1038/s41467-021-22612-3
Appears in Collections:
KIST Article > 2021
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