Quantum Dots: Near‐Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar‐Driven Hydrogen Production (Adv. Sci. 3/2016)

In article number 1500345, G. Zhao, A. Vomiero, F. Rosei, and co‐workers develop a new hybrid photoelectrochemical photoanode to generate H(2) from water, composed of a TiO(2) mesoporous frame functionalized by colloidal core@shell quantum dots (QDs) followed by CdS and ZnS capping layers. Saturated...

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Detalles Bibliográficos
Autores principales: Jin, Lei, AlOtaibi, Bandar, Benetti, Daniele, Li, Shun, Zhao, Haiguang, Mi, Zetian, Vomiero, Alberto, Rosei, Federico
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2016
Materias:
Back Cover
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5289658/
http://dx.doi.org/10.1002/advs.201670016
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author Jin, Lei
AlOtaibi, Bandar
Benetti, Daniele
Li, Shun
Zhao, Haiguang
Mi, Zetian
Vomiero, Alberto
Rosei, Federico
author_facet Jin, Lei
AlOtaibi, Bandar
Benetti, Daniele
Li, Shun
Zhao, Haiguang
Mi, Zetian
Vomiero, Alberto
Rosei, Federico
author_sort Jin, Lei
collection PubMed
description In article number 1500345, G. Zhao, A. Vomiero, F. Rosei, and co‐workers develop a new hybrid photoelectrochemical photoanode to generate H(2) from water, composed of a TiO(2) mesoporous frame functionalized by colloidal core@shell quantum dots (QDs) followed by CdS and ZnS capping layers. Saturated photocurrent density as high as 11.2 mA cm(−2) is obtained in a solar‐cell‐driven PEC system using near infrared QDs. [Image: see text]
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spelling pubmed-52896582017-02-03 Quantum Dots: Near‐Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar‐Driven Hydrogen Production (Adv. Sci. 3/2016) Jin, Lei AlOtaibi, Bandar Benetti, Daniele Li, Shun Zhao, Haiguang Mi, Zetian Vomiero, Alberto Rosei, Federico Adv Sci (Weinh) Back Cover In article number 1500345, G. Zhao, A. Vomiero, F. Rosei, and co‐workers develop a new hybrid photoelectrochemical photoanode to generate H(2) from water, composed of a TiO(2) mesoporous frame functionalized by colloidal core@shell quantum dots (QDs) followed by CdS and ZnS capping layers. Saturated photocurrent density as high as 11.2 mA cm(−2) is obtained in a solar‐cell‐driven PEC system using near infrared QDs. [Image: see text] John Wiley and Sons Inc. 2016-03-10 /pmc/articles/PMC5289658/ http://dx.doi.org/10.1002/advs.201670016 Text en © 2016 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim This is an open access article under the terms of the Creative Commons Attribution‐NonCommercial (http://creativecommons.org/licenses/by-nc/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
spellingShingle Back Cover
Jin, Lei
AlOtaibi, Bandar
Benetti, Daniele
Li, Shun
Zhao, Haiguang
Mi, Zetian
Vomiero, Alberto
Rosei, Federico
Quantum Dots: Near‐Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar‐Driven Hydrogen Production (Adv. Sci. 3/2016)
title Quantum Dots: Near‐Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar‐Driven Hydrogen Production (Adv. Sci. 3/2016)
title_full Quantum Dots: Near‐Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar‐Driven Hydrogen Production (Adv. Sci. 3/2016)
title_fullStr Quantum Dots: Near‐Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar‐Driven Hydrogen Production (Adv. Sci. 3/2016)
title_full_unstemmed Quantum Dots: Near‐Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar‐Driven Hydrogen Production (Adv. Sci. 3/2016)
title_short Quantum Dots: Near‐Infrared Colloidal Quantum Dots for Efficient and Durable Photoelectrochemical Solar‐Driven Hydrogen Production (Adv. Sci. 3/2016)
title_sort quantum dots: near‐infrared colloidal quantum dots for efficient and durable photoelectrochemical solar‐driven hydrogen production (adv. sci. 3/2016)
topic Back Cover
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5289658/
http://dx.doi.org/10.1002/advs.201670016
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