Accelerating hydrogen evolution in Ru-doped FeCoP nanoarrays with lattice distortion toward highly efficient overall water splitting-Reference-Cited by-同舟云学术

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Accelerating hydrogen evolution in Ru-doped FeCoP nanoarrays with lattice distortion toward highly efficient overall water splitting

Published:2020 Issue:24 Volume:10 Page:8314-8324
ISSN:2044-4753
Container-title:Catalysis Science & Technology
language:en
Short-container-title:Catal. Sci. Technol.

Author:

Liu Huan¹²³⁴⁵,Li Xiaoning⁶⁷⁸⁹¹⁰^ORCID,Ge Liangbing¹²³⁴⁵,Peng Cailing¹²³⁴⁵,Zhu Liuyang¹²³⁴⁵,Zou Wei¹²³⁴⁵,Chen Jifang¹²³⁴⁵,Wu Qingmei¹²³⁴⁵,Zhang Yuanxi¹²³⁴⁵,Huang Haoliang¹¹¹²³⁴⁵^ORCID,Wang Jianlin¹¹¹²³⁴⁵^ORCID,Cheng Zhenxiang⁶⁷⁸⁹¹⁰^ORCID,Fu Zhengping¹²³⁴⁵^ORCID,Lu Yalin¹²³⁴⁵

Affiliation:

1. Department of Materials Science and Engineering

2. CAS Key Laboratory of Materials for Energy Conversion

3. University of Science and Technology of China

4. Hefei 230026

5. P. R. China

6. Institute for Superconducting & Electronic Materials (ISEM)

7. Australia Institute for Innovative Materials

8. Innovation Campus

9. University of Wollongong

10. North Wollongong

11. Anhui Laboratory of Advanced Photon Science and Technology

12. National Synchrotron Radiation Laboratory

Abstract

In situ synthesized Ru-doped FeCoP nanoarray electrocatalysts with high activity and stability for overall water splitting.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Anhui Province

Publisher

Royal Society of Chemistry (RSC)

Subject

Catalysis

Link

http://pubs.rsc.org/en/content/articlepdf/2020/CY/D0CY01727B

Reference53 articles.

1. Enhancing Hydrogen Evolution Activity in Water Splitting by Tailoring Li + -Ni(OH) 2 -Pt Interfaces

2. Combining theory and experiment in electrocatalysis: Insights into materials design

3. Nanostructured hydrotreating catalysts for electrochemical hydrogen evolution

4. Transition-Metal (Co, Ni, and Fe)-Based Electrocatalysts for the Water Oxidation Reaction

5. Energy-Related Small Molecule Activation Reactions: Oxygen Reduction and Hydrogen and Oxygen Evolution Reactions Catalyzed by Porphyrin- and Corrole-Based Systems

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4. Electronic Engineering of Crystalline/Amorphous CoP/FeCoP_x Nanoarrays for Efficient Water Electrolysis;Small Methods;2024-09-05

5. Lithium transfer dynamics and storage capacity/cyclability properties of Ni and Ru dual-doped two-dimensional FePS3 nanoflakes;Materials Research Bulletin;2024-08

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