Hydrogen Production: Amorphous Ruthenium‐Sulfide with Isolated Catalytic Sites for Pt‐Like Electrocatalytic Hydrogen Production Over Whole pH Range (Small 46/2019)

In article number 1904043, Haohong Duan, Yun Kuang, Xiaoming Sun, and co‐workers use ruthenium, a much cheaper noble metal (the price is about 1/3 of Pt metal) with Pt like adsorption energy to H, to synthesize amorphous RuSx nanoparticles with atomically isolated active sites adhered on the surface...

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Veröffentlicht in:	Small (Weinheim an der Bergstrasse, Germany) Germany), 2019-11, Vol.15 (46), p.n/a
Hauptverfasser:	Li, Pengsong, Duan, Xinxuan, Wang, Shiyuan, Zheng, Lirong, Li, Yaping, Duan, Haohong, Kuang, Yun, Sun, Xiaoming
Format:	Artikel
Sprache:	eng
Schlagworte:	amorphous electrocatalysts Graphene Hydrogen evolution hydrogen evolution reaction Hydrogen production Nanoparticles Nanotechnology Noble metals Ruthenium ruthenium sulfide whole pH range
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creator	Li, Pengsong Duan, Xinxuan Wang, Shiyuan Zheng, Lirong Li, Yaping Duan, Haohong Kuang, Yun Sun, Xiaoming
description	In article number 1904043, Haohong Duan, Yun Kuang, Xiaoming Sun, and co‐workers use ruthenium, a much cheaper noble metal (the price is about 1/3 of Pt metal) with Pt like adsorption energy to H, to synthesize amorphous RuSx nanoparticles with atomically isolated active sites adhered on the surface of sulfur‐doped graphene for hydrogen evolution, affording Pt‐like or even higher activity in the entire pH range, as well as much higher durability.
doi_str_mv	10.1002/smll.201970249
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subjects	amorphous electrocatalysts Graphene Hydrogen evolution hydrogen evolution reaction Hydrogen production Nanoparticles Nanotechnology Noble metals Ruthenium ruthenium sulfide whole pH range
title	Hydrogen Production: Amorphous Ruthenium‐Sulfide with Isolated Catalytic Sites for Pt‐Like Electrocatalytic Hydrogen Production Over Whole pH Range (Small 46/2019)
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