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Research Article | Open Access

Hollow Bi2Te3 nanowire supported Ir for highly active and durable oxygen evolution reaction in proton exchange membrane water electrolysis

Young Hwa Yun1,2,§ KyeongSoo Yoon1,§Segi Byun1 HyeongJung Park1 Gisu Doo1 SangKyung Kim1MinJoong Kim1,3 Hyun-Seok Cho1,4 Byeong-Seon An5 ( )Bonjae Koo6 ( )Changsoo Lee1,7 ( )
Hydrogen Research Department, Korea Institute of Energy Research, Daejeon 34129, Republic of Korea
Department of Chemical and Biomolecular Engineering, Yonsei University, 50 Yonsei-ro, Seodaemun-gu, Seoul 03722, Republic of Korea
Department of Materials Science and Engineering, Kyung Hee University, 1732 Deogyeong-daero, Giheung-gu, Yongin-si, Gyeonggi-do 17104, Republic of Korea
Department of Chemical and Biomolecular Engineering, Sogang University, Seoul 04107, Republic of Korea
Analysis Center for Energy Research, Korea Institute of Energy Research, Daejeon 34129, Republic of Korea
School of Chemistry and Energy, Sungshin Women’s University, Seoul 02844, Republic of Korea
Department of Chemical Engineering Education, Chungnam National University, 99 Daehak-ro, Daejeon 34134, Republic of Korea

§ Young Hwa Yun and KyeongSoo Yoon contributed equally to this work.

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Abstract

The imperative demand for energy paradigm shift toward renewable and sustainable energy sources has intensified interest in proton exchange membrane water electrolysis (PEMWE) as a clean and efficient hydrogen production technology. However, the practical application of PEMWE is hindered by the scarcity and high cost of iridium (Ir), the state-of-the-art electrocatalyst for the oxygen evolution reaction (OER). To reduce Ir loading without compromising performance, we report a novel hollow Bi2Te3 (h-Bi2Te3) nanowire as a conductive and acid-tolerant support for Ir-based OER electrocatalysts. The h-Bi2Te3 nanowires were synthesized via a two-step wet chemical synthesis involving Te nanowire growth and subsequent Bi incorporation, with controlled hollowness induced by modulating the reducing agent concentration. Ir nanoparticles were uniformly deposited onto h-Bi2Te3 via polyol method, forming amorphous and well-dispersed Ir catalytic layers. Ir/h-Bi2Te3 catalyst achieved an outstanding OER overpotential of 268 mV at 10 mA/cm2, a mass activity of 460 mA/mgIr at 1.55 V (vs. reversible hydrogen electrode (RHE)), and superior stability over 5 h, surpassing commercial IrOx/TiO2, commercial Ir black, and Ir/Te benchmarks. The enhanced performance was attributed to the strong metal–support interaction, improved charge transfer, and enlarged electrochemically active surface area. Moreover, Ir/h-Bi2Te3 catalyst demonstrated outstanding single-cell performance of 1.811 V at 2.0 A/cm2 with extremely low Ir loading (0.1 mgIr/cm2) and long-term durability (a cell voltage increase of 36.6 mV during 100 h at 1.0 A/cm2), confirming its strong potential as a practical anode electrocatalyst for PEMWE. This study highlights the promise of morphology-engineered h-Bi2Te3 supports for advancing cost-effective and durable PEMWE systems.

Graphical Abstract

This study presents hollow Bi2Te3 nanowires as a novel, conductive, and acid-stable support for Ir-based oxygen evolution reaction (OER) catalysts in proton exchange membrane (PEM) water electrolysis. By tailoring nanowire morphology, the resulting Ir/h-Bi2Te3 catalyst demonstrates significantly enhanced mass activity, reduced Ir loading, and superior durability compared to commercial benchmarks.

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Nano Research
Article number: 94908097

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Cite this article:
Yun YH, Yoon K, Byun S, et al. Hollow Bi2Te3 nanowire supported Ir for highly active and durable oxygen evolution reaction in proton exchange membrane water electrolysis. Nano Research, 2025, 18(11): 94908097. https://doi.org/10.26599/NR.2025.94908097
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Received: 14 June 2025
Revised: 14 August 2025
Accepted: 19 September 2025
Published: 27 October 2025
© The Author(s) 2025. Published by Tsinghua University Press.

This is an open access article under the terms of the Creative Commons Attribution 4.0 International License (CC BY 4.0, https://creativecommons.org/licenses/by/4.0/).