Trimetallic (Au(rod)-Pd(shell)-Pt(cluster)) Catalyst Used as Amperometric Hydrogen Peroxide Sensor

Bimetallic nanostructured core-shell structures are commonly used as catalysts in a wide variety of reactions. We surmised that the addition of an additional metal would potentially allow catalytic tailoring with the possibility of an increase in activity. Here a tri-metallic catalytic structure, co...

Descripción completa

Detalles Bibliográficos
Autores principales: Cheng, Shou-I, Rick, John, Pan, Chun-Jern, Chou, Hung-Lung, Su, Wei-Nien, Chen, Kuan-Jung, Liu, Chung-Chiun, Yang, Yaw-Wen, Wang, Chia-Hsin, Hwang, Bing-Joe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2014
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4287713/
https://www.ncbi.nlm.nih.gov/pubmed/25587434
http://dx.doi.org/10.3390/bios4040461
_version_ 1782351838624874496
author Cheng, Shou-I
Rick, John
Pan, Chun-Jern
Chou, Hung-Lung
Su, Wei-Nien
Chen, Kuan-Jung
Liu, Chung-Chiun
Yang, Yaw-Wen
Wang, Chia-Hsin
Hwang, Bing-Joe
author_facet Cheng, Shou-I
Rick, John
Pan, Chun-Jern
Chou, Hung-Lung
Su, Wei-Nien
Chen, Kuan-Jung
Liu, Chung-Chiun
Yang, Yaw-Wen
Wang, Chia-Hsin
Hwang, Bing-Joe
author_sort Cheng, Shou-I
collection PubMed
description Bimetallic nanostructured core-shell structures are commonly used as catalysts in a wide variety of reactions. We surmised that the addition of an additional metal would potentially allow catalytic tailoring with the possibility of an increase in activity. Here a tri-metallic catalytic structure, consisting of clustered catalytic Pt on the surface of a Pd shell supported on a rod shaped Au core was fabricated. The significance of the additional metallic component is shown by comparative electrochemically active surface area (ECSA) analysis results for the trimetallic Au(rod)-Pd(shell)-Pt(cluster), bimetallic Au(rod)-Pt(cluster) and monometallic JM-Pt (used as a reference), which have respective ECSA values (cm(2)/mgPt) of 1883.0, 1371.7 and 879. The potential utility of the trimetallic catalysts was shown in a hydrogen peroxide sensing protocol, which showed the catalyst to have a sensitivity of 604 ìA/mMcm(2) within a linear range of 0.0013–6.191 mM.
format Online
Article
Text
id pubmed-4287713
institution National Center for Biotechnology Information
language English
publishDate 2014
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-42877132015-01-13 Trimetallic (Au(rod)-Pd(shell)-Pt(cluster)) Catalyst Used as Amperometric Hydrogen Peroxide Sensor Cheng, Shou-I Rick, John Pan, Chun-Jern Chou, Hung-Lung Su, Wei-Nien Chen, Kuan-Jung Liu, Chung-Chiun Yang, Yaw-Wen Wang, Chia-Hsin Hwang, Bing-Joe Biosensors (Basel) Article Bimetallic nanostructured core-shell structures are commonly used as catalysts in a wide variety of reactions. We surmised that the addition of an additional metal would potentially allow catalytic tailoring with the possibility of an increase in activity. Here a tri-metallic catalytic structure, consisting of clustered catalytic Pt on the surface of a Pd shell supported on a rod shaped Au core was fabricated. The significance of the additional metallic component is shown by comparative electrochemically active surface area (ECSA) analysis results for the trimetallic Au(rod)-Pd(shell)-Pt(cluster), bimetallic Au(rod)-Pt(cluster) and monometallic JM-Pt (used as a reference), which have respective ECSA values (cm(2)/mgPt) of 1883.0, 1371.7 and 879. The potential utility of the trimetallic catalysts was shown in a hydrogen peroxide sensing protocol, which showed the catalyst to have a sensitivity of 604 ìA/mMcm(2) within a linear range of 0.0013–6.191 mM. MDPI 2014-11-19 /pmc/articles/PMC4287713/ /pubmed/25587434 http://dx.doi.org/10.3390/bios4040461 Text en © 2014 by the authors; licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Cheng, Shou-I
Rick, John
Pan, Chun-Jern
Chou, Hung-Lung
Su, Wei-Nien
Chen, Kuan-Jung
Liu, Chung-Chiun
Yang, Yaw-Wen
Wang, Chia-Hsin
Hwang, Bing-Joe
Trimetallic (Au(rod)-Pd(shell)-Pt(cluster)) Catalyst Used as Amperometric Hydrogen Peroxide Sensor
title Trimetallic (Au(rod)-Pd(shell)-Pt(cluster)) Catalyst Used as Amperometric Hydrogen Peroxide Sensor
title_full Trimetallic (Au(rod)-Pd(shell)-Pt(cluster)) Catalyst Used as Amperometric Hydrogen Peroxide Sensor
title_fullStr Trimetallic (Au(rod)-Pd(shell)-Pt(cluster)) Catalyst Used as Amperometric Hydrogen Peroxide Sensor
title_full_unstemmed Trimetallic (Au(rod)-Pd(shell)-Pt(cluster)) Catalyst Used as Amperometric Hydrogen Peroxide Sensor
title_short Trimetallic (Au(rod)-Pd(shell)-Pt(cluster)) Catalyst Used as Amperometric Hydrogen Peroxide Sensor
title_sort trimetallic (au(rod)-pd(shell)-pt(cluster)) catalyst used as amperometric hydrogen peroxide sensor
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4287713/
https://www.ncbi.nlm.nih.gov/pubmed/25587434
http://dx.doi.org/10.3390/bios4040461
work_keys_str_mv AT chengshoui trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT rickjohn trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT panchunjern trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT chouhunglung trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT suweinien trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT chenkuanjung trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT liuchungchiun trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT yangyawwen trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT wangchiahsin trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor
AT hwangbingjoe trimetallicaurodpdshellptclustercatalystusedasamperometrichydrogenperoxidesensor

Ejemplares similares