Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis

Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis

Developing highly efficient multifunctional electrocatalysts is crucial for future sustainable energy  pursuits, but remains a great challenge. Herein, a facile synthetic strategy is used to confine atomically thin Pd-PdO nanodomains to amorphous Ru metallene oxide (RuO2 ). The as-synthesized electr...

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Main Authors: Do, Viet-Hung, Prabhu, P., Jose, Vishal, Yoshida, Takefumi, Zhou, Yingtang, Miwa, Hiroko, Kaneko, Takuma, Uruga, Tomoya, Iwasawa, Yasuhiro, Lee, Jong-Min
Other Authors: Interdisciplinary Graduate School (IGS)
Format: Article
Language:English
Published: 2023
Subjects:
Engineering::Chemical technology
Electrocatalysts
Heterostructures
Online Access:https://hdl.handle.net/10356/166406
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1664062023-06-21T08:35:01Z Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis Do, Viet-Hung Prabhu, P. Jose, Vishal Yoshida, Takefumi Zhou, Yingtang Miwa, Hiroko Kaneko, Takuma Uruga, Tomoya Iwasawa, Yasuhiro Lee, Jong-Min Interdisciplinary Graduate School (IGS) School of Chemistry, Chemical Engineering and Biotechnology Energy Research Institute @ NTU (ERI@N) Engineering::Chemical technology Electrocatalysts Heterostructures Developing highly efficient multifunctional electrocatalysts is crucial for future sustainable energy  pursuits, but remains a great challenge. Herein, a facile synthetic strategy is used to confine atomically thin Pd-PdO nanodomains to amorphous Ru metallene oxide (RuO2 ). The as-synthesized electrocatalyst (Pd2 RuOx-0.5 h) exhibits excellent catalytic activity toward the pH-universal hydrogen evolution reaction (η10  = 14 mV in 1 m KOH, η10  = 12 mV in 0.5 m H2 SO4 , and η10  = 22 mV in 1 m PBS), alkaline oxygen evolution reaction (η10  = 225 mV), and overall water splitting (E10  = 1.49 V) with high mass activity and operational stability. Further reduction endows the material (Pd2 RuOx-2 h) with a promising alkaline oxygen reduction activity, evidenced by high halfway potential, four-electron selectivity, and excellent poison tolerance. The enhanced catalytic activity is attributed to the rational integration of favorable nanostructures, including 1) the atomically thin nanosheet morphology, 2) the coexisting amorphous and defective crystalline phases, and 3) the multi-component heterostructural features. These structural factors effectively regulate the material's electronic configuration and the adsorption of intermediates at the active sites for favorable reaction energetics. Ministry of Education (MOE) This work was financially supported by the AcRF Tier 1 (grant RG105/19) provided by the Ministry of Education in Singapore and the Foundation of State Key Laboratory of High-Efficiency Utilization of Coal and Green Chemical Engineering (grant no. 2022-K31). 2023-04-24T08:01:21Z 2023-04-24T08:01:21Z 2023 Journal Article Do, V., Prabhu, P., Jose, V., Yoshida, T., Zhou, Y., Miwa, H., Kaneko, T., Uruga, T., Iwasawa, Y. & Lee, J. (2023). Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis. Advanced Materials, 35(12), 2208860-. https://dx.doi.org/10.1002/adma.202208860 0935-9648 https://hdl.handle.net/10356/166406 10.1002/adma.202208860 36598813 2-s2.0-85145364641 12 35 2208860 en RG105/19 Advanced Materials © 2023 Wiley-VCH GmbH. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Chemical technology
Electrocatalysts
Heterostructures
spellingShingle Engineering::Chemical technology
Electrocatalysts
Heterostructures
Do, Viet-Hung
Prabhu, P.
Jose, Vishal
Yoshida, Takefumi
Zhou, Yingtang
Miwa, Hiroko
Kaneko, Takuma
Uruga, Tomoya
Iwasawa, Yasuhiro
Lee, Jong-Min
Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis
description Developing highly efficient multifunctional electrocatalysts is crucial for future sustainable energy  pursuits, but remains a great challenge. Herein, a facile synthetic strategy is used to confine atomically thin Pd-PdO nanodomains to amorphous Ru metallene oxide (RuO2 ). The as-synthesized electrocatalyst (Pd2 RuOx-0.5 h) exhibits excellent catalytic activity toward the pH-universal hydrogen evolution reaction (η10  = 14 mV in 1 m KOH, η10  = 12 mV in 0.5 m H2 SO4 , and η10  = 22 mV in 1 m PBS), alkaline oxygen evolution reaction (η10  = 225 mV), and overall water splitting (E10  = 1.49 V) with high mass activity and operational stability. Further reduction endows the material (Pd2 RuOx-2 h) with a promising alkaline oxygen reduction activity, evidenced by high halfway potential, four-electron selectivity, and excellent poison tolerance. The enhanced catalytic activity is attributed to the rational integration of favorable nanostructures, including 1) the atomically thin nanosheet morphology, 2) the coexisting amorphous and defective crystalline phases, and 3) the multi-component heterostructural features. These structural factors effectively regulate the material's electronic configuration and the adsorption of intermediates at the active sites for favorable reaction energetics.
author2 Interdisciplinary Graduate School (IGS)
author_facet Interdisciplinary Graduate School (IGS)
Do, Viet-Hung
Prabhu, P.
Jose, Vishal
Yoshida, Takefumi
Zhou, Yingtang
Miwa, Hiroko
Kaneko, Takuma
Uruga, Tomoya
Iwasawa, Yasuhiro
Lee, Jong-Min
format Article
author Do, Viet-Hung
Prabhu, P.
Jose, Vishal
Yoshida, Takefumi
Zhou, Yingtang
Miwa, Hiroko
Kaneko, Takuma
Uruga, Tomoya
Iwasawa, Yasuhiro
Lee, Jong-Min
author_sort Do, Viet-Hung
title Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis
title_short Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis
title_full Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis
title_fullStr Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis
title_full_unstemmed Pd-PdO nanodomains on amorphous Ru metallene oxide for high-performance multifunctional electrocatalysis
title_sort pd-pdo nanodomains on amorphous ru metallene oxide for high-performance multifunctional electrocatalysis
publishDate 2023
url https://hdl.handle.net/10356/166406
_version_ 1772828374139404288

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