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Philosophical Magazine Volume 87, 2007 - Issue 29
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Original Articles

Photo-stimulated proton-coupled electron transfer in quasi-amorphous WO3 and MoO3 thin films

A. Gavrilyuk A.F. Ioffe Physical-Technical Institute, Russian Academy of Sciences, Polytekchnicheskaya Street 26, 194021 St Petersburg, RussiaCorrespondence[email protected]
,
U. Tritthart Institute of Applied Physics, Technical University of Braunschweig, Mendelssohnstrasse 2, 38106 Braunschweig, Germany
&
W. Gey Institute of Applied Physics, Technical University of Braunschweig, Mendelssohnstrasse 2, 38106 Braunschweig, Germany
Pages 4519-4553 | Received 15 Dec 2006, Accepted 08 Jul 2007, Published online: 13 Sep 2007

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Onome Ejeromedoghene, Olayinka Oderinde, Fang Yao, Sheriff Adewuyi & Guodong Fu. (2022) Intrinsic structural/morphological and photochromic responses of WO3 co-doped MoO3 nanocomposites based on varied drying methods. Drying Technology 40:11, pages 2321-2334.
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Articles from other publishers (23)

Myeong-Hun Jo, Bon-Ryul Koo & Hyo-Jin Ahn. (2021) Defective impacts on amorphous WO3·H2O films using accelerated hydrolysis effects for flexible electrochromic energy-storage devices. Applied Surface Science 556, pages 149664.
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Yi Wang, Yao Lee, Jiupeng Jhao & Alexander Gavrilyuk. (2018) Hydrogen photochromism in V2O5 layers prepared by sol–gel technology with the use of dimethylformamide as a hydrogen donor. Journal of Sol-Gel Science and Technology 86:1, pages 126-134.
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Yang Wang, Jongwook Kim, Zhengning Gao, Omid Zandi, Sungyeon Heo, Parag Banerjee & Delia J. Milliron. (2016) Disentangling Photochromism and Electrochromism by Blocking Hole Transfer at the Electrolyte Interface. Chemistry of Materials 28:20, pages 7198-7202.
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A.I. Gavrilyuk. (2016) Degradation of dimethylformamide on the surface of the nanosized WO 3 films studied by infrared spectroscopy. Applied Surface Science 377, pages 56-65.
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A.I. Gavrilyuk. (2016) Aging of the nanosized photochromic WO3 films and the role of adsorbed water in the photochromism. Applied Surface Science 364, pages 498-504.
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Lei Pan, Yi Wang, XianJie Wang, HuiYing Qu, JiuPeng Zhao, Yao Li & Alexander Gavrilyuk. (2014) Hydrogen photochromism in Nb 2 O 5 powders . Physical Chemistry Chemical Physics 16:38, pages 20828-20833.
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Yi Wang, Lei Pan, Yao Li & A.I. Gavrilyuk. (2014) Hydrogen photochromism in V 2 O 5 layers prepared by the sol–gel technology. Applied Surface Science 314, pages 384-391.
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Claes G. Granqvist. (2014) Electrochromics for smart windows: Oxide-based thin films and devices. Thin Solid Films 564, pages 1-38.
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. 2013. Hydrogen Energy for Beginners. Hydrogen Energy for Beginners 241 282 .
A. I. Gavrilyuk. (2013) A dramatic increase of photochromic sensitivity in the case of hydrogen photochromism in WO3. Technical Physics Letters 39:10, pages 928-931.
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A.I. Gavrilyuk. (2013) Impact of proton diffusion and the hydrogen photospillover upon the photochromic sensitivity of the WO3 films and the WO3 double-layer structures. Applied Surface Science 273, pages 735-747.
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David R. Weinberg, Christopher J. Gagliardi, Jonathan F. Hull, Christine Fecenko Murphy, Caleb A. Kent, Brittany C. Westlake, Amit Paul, Daniel H. Ess, Dewey Granville McCafferty & Thomas J. Meyer. (2012) Proton-Coupled Electron Transfer. Chemical Reviews 112:7, pages 4016-4093.
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Claes G. Granqvist. (2012) Oxide electrochromics: An introduction to devices and materials. Solar Energy Materials and Solar Cells 99, pages 1-13.
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Alexander Gavrilyuk, Ulf Tritthart & Wolfgang Gey. (2011) The nature of the photochromism arising in the nanosized MoO3 films. Solar Energy Materials and Solar Cells 95:7, pages 1846-1851.
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Alexander Gavrilyuk, Ulf Tritthart & Wolfgang Gey. (2011) Photoinjection of hydrogen and the nature of a giant shift of the fundamental absorption edge in highly disordered V2O5 films. Physical Chemistry Chemical Physics 13:20, pages 9490.
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Claes G. Granqvist. 2010. Transparent Electronics. Transparent Electronics 325 341 .
A.I. Gavrilyuk. (2010) Nanosized WO3 thin film as a multifunctional hydrogen material for achieving photolysis in CuCl films via hydrogen photosensitization. Solar Energy Materials and Solar Cells 94:3, pages 515-523.
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N. A. Sekushin. (2010) Electrochromism of amorphous WO3 films under the conditions of proton deficiency. Russian Journal of Electrochemistry 45:12, pages 1340-1345.
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A. I. Gavrilyuk. (2009) Photolysis, photochromism, and formation of Cu nanoparticles in CuCl films with the help of hydrogen photosensitization. Technical Physics Letters 35:10, pages 909-911.
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A.I. Gavrilyuk. (2009) Application of WO3 thin films for enhancement of photolysis in AgCl. Solar Energy Materials and Solar Cells 93:10, pages 1885-1895.
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A. I. Gavrilyuk. (2009) Hydrogen-photoinjection-induced enhancement of photochromism in AgCl films. Technical Physics Letters 35:6, pages 494-497.
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A. I. Gavrilyuk & M. M. Afanas’ev. (2009) Mechanism of color center formation during hydrogen photoinjection into nanodimensional MoO3 films. Technical Physics Letters 35:4, pages 322-325.
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A.I. Gavrilyuk & M.M. Afanasiev. (2009) ESR study of photoinjection of hydrogen in nanostructured MoO3 thin films. Solar Energy Materials and Solar Cells 93:2, pages 280-288.
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