Surface-assembled non-noble metal nanoscale Ni-colloidal thin-films as efficient electrocatalysts for water oxidation

A highly operative and inexpensive water oxidation scheme using an efficient nanoscale electrocatalyst is vastly demanded for optimum H(2) production, CO(2) reduction, and has attracted increased attention for chemical energy conversion. We present here a simple route to make efficient electrocataly...

Descripción completa

Detalles Bibliográficos
Autores principales: Babar, Noor-Ul-Ain, Saddiqa, Ayesha, Nisar, Laraib, Gilani, Syeda Robina, Joya, Khurram Saleem
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2019
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9075524/
https://www.ncbi.nlm.nih.gov/pubmed/35542249
http://dx.doi.org/10.1039/c9ra07388d
_version_ 1784701704755740672
author Babar, Noor-Ul-Ain
Saddiqa, Ayesha
Nisar, Laraib
Gilani, Syeda Robina
Joya, Khurram Saleem
author_facet Babar, Noor-Ul-Ain
Saddiqa, Ayesha
Nisar, Laraib
Gilani, Syeda Robina
Joya, Khurram Saleem
author_sort Babar, Noor-Ul-Ain
collection PubMed
description A highly operative and inexpensive water oxidation scheme using an efficient nanoscale electrocatalyst is vastly demanded for optimum H(2) production, CO(2) reduction, and has attracted increased attention for chemical energy conversion. We present here a simple route to make efficient electrocatalytic colloidal nanoparticles of nickel out of mere metal ions in a simple borate buffer system. The simple and annealed Ni-colloidal nanoparticles (Ni-CNPs) resulted in a facile transformation into ultrafine films, which further activated the catalysts, while initiating OER just at the overpotential η = 250 mV (1.48 V vs. RHE) under benign conditions. They also showed high porosity and favorable kinetics while displaying impressive Tafel slopes of just 51 mV dec(−1), and a high TOF value of 0.79 s(−1) at 0.35 V was observed for Ni-CNPs/FTO(500). These electrocatalysts also showed long-term stability during the bulk water electrolysis experiment conducted for a continuous 20 hours without notable catalytic degradation, which ensures their economic benefits. The electrochemical data, CVs, kinetic study, short-term durability, extended catalytic stability, SEM analysis, and other supporting data provide compelling evidence that these non-precious, metal-based, electroactive, catalytic, colloidal thin-films (simple and annealed) with nanoscale morphological attributes presented promising catalytic performance under the conditions used herein.
format Online
Article
Text
id pubmed-9075524
institution National Center for Biotechnology Information
language English
publishDate 2019
publisher The Royal Society of Chemistry
record_format MEDLINE/PubMed
spelling pubmed-90755242022-05-09 Surface-assembled non-noble metal nanoscale Ni-colloidal thin-films as efficient electrocatalysts for water oxidation Babar, Noor-Ul-Ain Saddiqa, Ayesha Nisar, Laraib Gilani, Syeda Robina Joya, Khurram Saleem RSC Adv Chemistry A highly operative and inexpensive water oxidation scheme using an efficient nanoscale electrocatalyst is vastly demanded for optimum H(2) production, CO(2) reduction, and has attracted increased attention for chemical energy conversion. We present here a simple route to make efficient electrocatalytic colloidal nanoparticles of nickel out of mere metal ions in a simple borate buffer system. The simple and annealed Ni-colloidal nanoparticles (Ni-CNPs) resulted in a facile transformation into ultrafine films, which further activated the catalysts, while initiating OER just at the overpotential η = 250 mV (1.48 V vs. RHE) under benign conditions. They also showed high porosity and favorable kinetics while displaying impressive Tafel slopes of just 51 mV dec(−1), and a high TOF value of 0.79 s(−1) at 0.35 V was observed for Ni-CNPs/FTO(500). These electrocatalysts also showed long-term stability during the bulk water electrolysis experiment conducted for a continuous 20 hours without notable catalytic degradation, which ensures their economic benefits. The electrochemical data, CVs, kinetic study, short-term durability, extended catalytic stability, SEM analysis, and other supporting data provide compelling evidence that these non-precious, metal-based, electroactive, catalytic, colloidal thin-films (simple and annealed) with nanoscale morphological attributes presented promising catalytic performance under the conditions used herein. The Royal Society of Chemistry 2019-11-14 /pmc/articles/PMC9075524/ /pubmed/35542249 http://dx.doi.org/10.1039/c9ra07388d Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by/3.0/
spellingShingle Chemistry
Babar, Noor-Ul-Ain
Saddiqa, Ayesha
Nisar, Laraib
Gilani, Syeda Robina
Joya, Khurram Saleem
Surface-assembled non-noble metal nanoscale Ni-colloidal thin-films as efficient electrocatalysts for water oxidation
title Surface-assembled non-noble metal nanoscale Ni-colloidal thin-films as efficient electrocatalysts for water oxidation
title_full Surface-assembled non-noble metal nanoscale Ni-colloidal thin-films as efficient electrocatalysts for water oxidation
title_fullStr Surface-assembled non-noble metal nanoscale Ni-colloidal thin-films as efficient electrocatalysts for water oxidation
title_full_unstemmed Surface-assembled non-noble metal nanoscale Ni-colloidal thin-films as efficient electrocatalysts for water oxidation
title_short Surface-assembled non-noble metal nanoscale Ni-colloidal thin-films as efficient electrocatalysts for water oxidation
title_sort surface-assembled non-noble metal nanoscale ni-colloidal thin-films as efficient electrocatalysts for water oxidation
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9075524/
https://www.ncbi.nlm.nih.gov/pubmed/35542249
http://dx.doi.org/10.1039/c9ra07388d
work_keys_str_mv AT babarnoorulain surfaceassemblednonnoblemetalnanoscalenicolloidalthinfilmsasefficientelectrocatalystsforwateroxidation
AT saddiqaayesha surfaceassemblednonnoblemetalnanoscalenicolloidalthinfilmsasefficientelectrocatalystsforwateroxidation
AT nisarlaraib surfaceassemblednonnoblemetalnanoscalenicolloidalthinfilmsasefficientelectrocatalystsforwateroxidation
AT gilanisyedarobina surfaceassemblednonnoblemetalnanoscalenicolloidalthinfilmsasefficientelectrocatalystsforwateroxidation
AT joyakhurramsaleem surfaceassemblednonnoblemetalnanoscalenicolloidalthinfilmsasefficientelectrocatalystsforwateroxidation

Ejemplares similares