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High-performance and durable anion-exchange membrane water electrolysers with high-molecular-weight polycarbazole-based anion-conducting polymer

Authors
Kim, SungjunYang, Seok HwanShin, Sang-HunCho, Hye JinJang, Jung KyuKim, Tae HoonOh, Seong-GeunKim, Tae-HoHan, HyukSuLee, Jang Yong
Issue Date
Jul-2024
Publisher
Royal Society of Chemistry
Citation
Energy & Environmental Science, v.17, no.15, pp 5399 - 5409
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
Energy & Environmental Science
Volume
17
Number
15
Start Page
5399
End Page
5409
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/204893
DOI
10.1039/d4ee01003e
ISSN
1754-5692
1754-5706
Abstract
Anion-exchange membrane water electrolysis is a promising technology for economical green hydrogen production; however, the corresponding industrial applications are limited by the lack of reliable polymer electrolytes. To address this problem, we developed chain-extender-derived high-molecular-weight hexyltrimethylammonium-tethered polycarbazoles (HQPC-TMA-x's) with compelling membrane characteristics, including high ionic conductivity, mechanical robustness, and high alkaline stability. Owing to its polycarbazole backbone, HQPC-TMA-x alleviated the problems due to ionomer adsorption on the electrode. In the single-cell configuration, the best-performing polymer (HQPC-TMA-2.4) achieved an unprecedented current density of 14.6 A cm-2 at 2.0 V with a Ni-Fe alloy anode and low-cost cell hardware, additionally showing superior pure-water-electrolysis and direct-seawater-electrolysis performances. HQPC-TMA-2.4 exhibited in situ durability at a high current density of 1.0 A cm-2 for 1000 h with low irreversible degradation rates of 52 and 6 mu V h-1 for platinum group metal (PGM) and PGM-free cells, respectively, demonstrating the reliability of this polymer in practical settings.
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