In Situ Modification of a Delafossite-Type PdCoO(2) Bulk Single Crystal for Reversible Hydrogen Sorption and Fast Hydrogen Evolution

[Image: see text] The observation of extraordinarily high conductivity in delafossite-type PdCoO(2) is of great current interest, and there is some evidence that electrons behave like a fluid when flowing in bulk crystals of PdCoO(2). Thus, this material is an ideal platform for the study of the ele...

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Autores principales: Li, Guowei, Khim, Seunghyun, Chang, Celesta S., Fu, Chenguang, Nandi, Nabhanila, Li, Fan, Yang, Qun, Blake, Graeme R., Parkin, Stuart, Auffermann, Gudrun, Sun, Yan, Muller, David A., Mackenzie, Andrew P., Felser, Claudia
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2019
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6747882/
https://www.ncbi.nlm.nih.gov/pubmed/31544150
http://dx.doi.org/10.1021/acsenergylett.9b01527
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author Li, Guowei
Khim, Seunghyun
Chang, Celesta S.
Fu, Chenguang
Nandi, Nabhanila
Li, Fan
Yang, Qun
Blake, Graeme R.
Parkin, Stuart
Auffermann, Gudrun
Sun, Yan
Muller, David A.
Mackenzie, Andrew P.
Felser, Claudia
author_facet Li, Guowei
Khim, Seunghyun
Chang, Celesta S.
Fu, Chenguang
Nandi, Nabhanila
Li, Fan
Yang, Qun
Blake, Graeme R.
Parkin, Stuart
Auffermann, Gudrun
Sun, Yan
Muller, David A.
Mackenzie, Andrew P.
Felser, Claudia
author_sort Li, Guowei
collection PubMed
description [Image: see text] The observation of extraordinarily high conductivity in delafossite-type PdCoO(2) is of great current interest, and there is some evidence that electrons behave like a fluid when flowing in bulk crystals of PdCoO(2). Thus, this material is an ideal platform for the study of the electron transfer processes in heterogeneous reactions. Here, we report the use of bulk single-crystal PdCoO(2) as a promising electrocatalyst for hydrogen evolution reactions (HERs). An overpotential of only 31 mV results in a current density of 10 mA cm(–2), accompanied by high long-term stability. We have precisely determined that the crystal surface structure is modified after electrochemical activation with the formation of strained Pd nanoclusters in the surface layer. These nanoclusters exhibit reversible hydrogen sorption and desorption, creating more active sites for hydrogen access. The bulk PdCoO(2) single crystal with ultrahigh conductivity, which acts as a natural substrate for the Pd nanoclusters, provides a high-speed channel for electron transfer.
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spelling pubmed-67478822019-09-18 In Situ Modification of a Delafossite-Type PdCoO(2) Bulk Single Crystal for Reversible Hydrogen Sorption and Fast Hydrogen Evolution Li, Guowei Khim, Seunghyun Chang, Celesta S. Fu, Chenguang Nandi, Nabhanila Li, Fan Yang, Qun Blake, Graeme R. Parkin, Stuart Auffermann, Gudrun Sun, Yan Muller, David A. Mackenzie, Andrew P. Felser, Claudia ACS Energy Lett [Image: see text] The observation of extraordinarily high conductivity in delafossite-type PdCoO(2) is of great current interest, and there is some evidence that electrons behave like a fluid when flowing in bulk crystals of PdCoO(2). Thus, this material is an ideal platform for the study of the electron transfer processes in heterogeneous reactions. Here, we report the use of bulk single-crystal PdCoO(2) as a promising electrocatalyst for hydrogen evolution reactions (HERs). An overpotential of only 31 mV results in a current density of 10 mA cm(–2), accompanied by high long-term stability. We have precisely determined that the crystal surface structure is modified after electrochemical activation with the formation of strained Pd nanoclusters in the surface layer. These nanoclusters exhibit reversible hydrogen sorption and desorption, creating more active sites for hydrogen access. The bulk PdCoO(2) single crystal with ultrahigh conductivity, which acts as a natural substrate for the Pd nanoclusters, provides a high-speed channel for electron transfer. American Chemical Society 2019-08-15 2019-09-13 /pmc/articles/PMC6747882/ /pubmed/31544150 http://dx.doi.org/10.1021/acsenergylett.9b01527 Text en Copyright © 2019 American Chemical Society This is an open access article published under a Creative Commons Attribution (CC-BY) License (http://pubs.acs.org/page/policy/authorchoice_ccby_termsofuse.html) , which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited.
spellingShingle Li, Guowei
Khim, Seunghyun
Chang, Celesta S.
Fu, Chenguang
Nandi, Nabhanila
Li, Fan
Yang, Qun
Blake, Graeme R.
Parkin, Stuart
Auffermann, Gudrun
Sun, Yan
Muller, David A.
Mackenzie, Andrew P.
Felser, Claudia
In Situ Modification of a Delafossite-Type PdCoO(2) Bulk Single Crystal for Reversible Hydrogen Sorption and Fast Hydrogen Evolution
title In Situ Modification of a Delafossite-Type PdCoO(2) Bulk Single Crystal for Reversible Hydrogen Sorption and Fast Hydrogen Evolution
title_full In Situ Modification of a Delafossite-Type PdCoO(2) Bulk Single Crystal for Reversible Hydrogen Sorption and Fast Hydrogen Evolution
title_fullStr In Situ Modification of a Delafossite-Type PdCoO(2) Bulk Single Crystal for Reversible Hydrogen Sorption and Fast Hydrogen Evolution
title_full_unstemmed In Situ Modification of a Delafossite-Type PdCoO(2) Bulk Single Crystal for Reversible Hydrogen Sorption and Fast Hydrogen Evolution
title_short In Situ Modification of a Delafossite-Type PdCoO(2) Bulk Single Crystal for Reversible Hydrogen Sorption and Fast Hydrogen Evolution
title_sort in situ modification of a delafossite-type pdcoo(2) bulk single crystal for reversible hydrogen sorption and fast hydrogen evolution
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6747882/
https://www.ncbi.nlm.nih.gov/pubmed/31544150
http://dx.doi.org/10.1021/acsenergylett.9b01527
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