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dc.contributor.author Razzaq, Abdul -
dc.contributor.author Grimes, Craig A. -
dc.contributor.author In, Su-Il -
dc.date.available 2017-04-18T07:10:06Z -
dc.date.created 2017-04-10 -
dc.date.issued 2016-03 -
dc.identifier.issn 0008-6223 -
dc.identifier.uri http://hdl.handle.net/20.500.11750/1284 -
dc.description.abstract One-dimensional TiO2 nanotubes arrays (TNT) are the subject of great current interest among the photocatalysis research community, however the relatively large bandgap that provides TiO2 with its excellent corrosion stability severely limits its absorption of solar spectrum energy. To increase the optical absorption of TiO2 while maintaining its otherwise commendable properties a number of approaches have been investigated including doping with non-metal or noble metal co-catalysts such as platinum, coupling with low band gap semiconductors, and the synthesis of carbon-based TiO2 composites. During the past few years graphene-based TiO2 nanostructures have been found to offer improved photoelectrochemical properties, with graphene enhancing light absorption as well as promoting rapid charge transfer. With the aim of replacing expensive noble metal co-catalysts, herein we report a noble metal-free novel nanostructured photocatalytic material fabricated using a facile synthesis approach, comprising a one-dimensional array of TNT covered with a reduced graphene oxide-TiO2 nanoparticles (rGO-TiO2 NP) composite. The novel nanostructure exhibits significantly improved photocurrent density and photochemical activity via conversion of CO2 into methane under simulated solar light irradiation. The improved performance appears due to the combined effect of enhanced light absorption and effective charge separation promoted by the rGO. © 2015 Elsevier Ltd. All rights reserved. -
dc.publisher Elsevier Ltd -
dc.title Facile fabrication of a noble metal-free photocatalyst: TiO2 nanotube arrays covered with reduced graphene oxide -
dc.type Article -
dc.identifier.doi 10.1016/j.carbon.2015.11.053 -
dc.identifier.scopusid 2-s2.0-84955303684 -
dc.identifier.bibliographicCitation Carbon, v.98, pp.537 - 544 -
dc.subject.keywordPlus Absorption Spectroscopy -
dc.subject.keywordPlus ANODIZATION -
dc.subject.keywordPlus Carbon -
dc.subject.keywordPlus Carbon Dioxide -
dc.subject.keywordPlus CATALYSTS -
dc.subject.keywordPlus Charge Transfer -
dc.subject.keywordPlus CO2 -
dc.subject.keywordPlus COMPOSITES -
dc.subject.keywordPlus CONVERSION -
dc.subject.keywordPlus Electromagnetic Wave Absorption -
dc.subject.keywordPlus ELECTROPHORETIC DEPOSITION -
dc.subject.keywordPlus Energy Gap -
dc.subject.keywordPlus Enhanced Light Absorptions -
dc.subject.keywordPlus FILMS -
dc.subject.keywordPlus Graphene -
dc.subject.keywordPlus Light Absorption -
dc.subject.keywordPlus Low-Band Gap Semiconductors -
dc.subject.keywordPlus Metal Nanoparticles -
dc.subject.keywordPlus METALS -
dc.subject.keywordPlus Nanostructures -
dc.subject.keywordPlus NANOTUBES -
dc.subject.keywordPlus One-Dimensional Arrays -
dc.subject.keywordPlus PERFORMANCE -
dc.subject.keywordPlus Photocatalytic Materials -
dc.subject.keywordPlus Photochemical Activity -
dc.subject.keywordPlus Photoelectrochemical Properties -
dc.subject.keywordPlus Precious Metals -
dc.subject.keywordPlus RAMAN-SCATTERING -
dc.subject.keywordPlus Reduced Graphene Oxides -
dc.subject.keywordPlus REDUCTION -
dc.subject.keywordPlus Semiconductor Doping -
dc.subject.keywordPlus Simulated Solar Light -
dc.subject.keywordPlus Synthesis (Chemical) -
dc.subject.keywordPlus TITANIA NANOTUBES -
dc.subject.keywordPlus Titanium Dioxide -
dc.subject.keywordPlus Yarn -
dc.citation.endPage 544 -
dc.citation.startPage 537 -
dc.citation.title Carbon -
dc.citation.volume 98 -
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Department of Energy Science and Engineering Green and Renewable Energy for Endless Nature(GREEN) Lab 1. Journal Articles

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