期刊
INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
卷 42, 期 38, 页码 24014-24025出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.ijhydene.2017.07.208
关键词
Titania nanotube arrays; Platinum; Chemical reduction; Photo-assisted deposition; Hydrogen
资金
- LP3M Institut Teknologi Indonesia
- Directorate General of Higher Education (DGHE), Indonesian Ministry of National Education for the financial support of this research (Hibah Bersaing grant) [025/K3/KWSPK/2013]
Photocatalytic activity of Pt-loaded TiO2 nanotube arrays (Pt-TNTA) in the presence of glycerol as a sacrificial agent to produce H-2 has been studied. The effects of Pt loading and the methods by which it is deposited on TNTA (chemical reduction and photo-assisted deposition) were carefully examined. Intermediate products were also identified in order to scrutinise the reaction pathways of hydrogen generation in this particular system. FESEM imaging confirmed the formation of nantotubular structures of TiO2 with average inner diameter of 80 nm, wall thickness of 20 nm, and length of approximately 2.5 mu m. The generated nanotube arrays were of anatase structure with crystallite size within the range of 22-30 nm. Pt was successfully deposited on the surface of TNTA, as corroborated by EDX spectra, elemental mapping and TEM analysis. Band gap narrowing upon Pt loading was implied by UV-Vis DRS analysis, resulting in a band gap value of 2.93 eV, notably lower than a typical value of 3.2 eV associated with anatase. The photocatalyst sample with Pt deposited via a photo-assisted deposition method (Pt-TNTA-PDC) evidently outperformed its bare TNTA counterpart in producing hydrogen by 4.7 times, while that with Pt deposited by chemical reduction could improve H-2 production by 3.8 times. During photocatalytic operations, glycerol served an important purpose in suppressing electron-hole recombination by providing holes an oxidative target which is less energy-demanding than water. It is proposed that glycerol underwent dehydrogenation and decarbonylation processes producing ethylene glycol, followed by dehydration and oxidation towards acetic acid, before transforming into H-2 and CO2, eventually. We suggest that Pt plays a role not only in the enhancement of H-2 photoproduction, but also in governing the direction of reactions, hence the intermediates and final products. (C) 2017 Hydrogen Energy Publications LLC. Published by Elsevier Ltd. All rights reserved.
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