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W2763022503 abstract "A highly ordered TiO2 nanotube array covered with MoS2 is fabricated through a facile anodization of a metallic Ti followed by electrochemical deposition approach. The morphologies characterization of v-TiO2@MoS2 indicate that a whole scale of 1D TiO2nanotube uniformly covered with the MoS2 layer inside and outside, and the pathway inside the TiO2nanotube is kept flow-through. The as-synthesized v-TiO2@MoS2 hybrid exhibits higher efficient and stable visible light activities than that of either pure TiO2 nanotubes or nv-TiO2@MoS2 nanostructures. By electrochemical measurements such as linear sweep voltammetry(LSV) and electrochemical impedance spectroscope (EIS) under light illumination or in dark, we find that the v-TiO2@MoS2hybrid shows markedly enhanced photoelectrochemical performance. Furthermore, we compare the electrocatalytic behavior of v-TiO2@MoS2under illumination in H2SO4/Lactic acid within Na2S/NaSO3 solution. The results show that the photo-assistant electrocatalytic activity in acidic environment is much better than in alkaline environment. The highly directional and orthogonal separation of charge carriers between TiO2 nanotubes and MoS2 layer, together with maximally exposed MoS2 edges, light harvesting and junctions formed between TiO2 and MoS2 is supposed to be mainly responsible for the enhanced photo-assistant electrocatalytic activity of v-TiO2@MoS2." @default.
W2763022503 created "2017-10-20" @default.
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W2763022503 creator A5074571144 @default.
W2763022503 date "2018-03-01" @default.
W2763022503 modified "2023-09-27" @default.
W2763022503 title "Enhanced photo-assistant electrocatalysis of anodization TiO 2 nanotubes via surrounded surface decoration with MoS 2 for hydrogen evolution reaction" @default.
W2763022503 cites W1570518508 @default.
W2763022503 cites W1829643206 @default.
W2763022503 cites W1967320284 @default.
W2763022503 cites W1967382079 @default.
W2763022503 cites W1969202540 @default.
W2763022503 cites W1980437378 @default.
W2763022503 cites W1981622669 @default.
W2763022503 cites W1986252415 @default.
W2763022503 cites W1990599339 @default.
W2763022503 cites W1996320936 @default.
W2763022503 cites W2010818471 @default.
W2763022503 cites W2013370959 @default.
W2763022503 cites W2017871657 @default.
W2763022503 cites W2022256605 @default.
W2763022503 cites W2023355087 @default.
W2763022503 cites W2025803505 @default.
W2763022503 cites W2031927309 @default.
W2763022503 cites W2032939495 @default.
W2763022503 cites W2033188759 @default.
W2763022503 cites W2039010009 @default.
W2763022503 cites W2040484245 @default.
W2763022503 cites W2041119155 @default.
W2763022503 cites W2042492216 @default.
W2763022503 cites W2044360779 @default.
W2763022503 cites W2060650362 @default.
W2763022503 cites W2066563836 @default.
W2763022503 cites W2067236753 @default.
W2763022503 cites W2068740649 @default.
W2763022503 cites W2079687160 @default.
W2763022503 cites W2080224381 @default.
W2763022503 cites W2083226285 @default.
W2763022503 cites W2090264726 @default.
W2763022503 cites W2090523607 @default.
W2763022503 cites W2091459675 @default.
W2763022503 cites W2092044679 @default.
W2763022503 cites W2103321094 @default.
W2763022503 cites W2105708469 @default.
W2763022503 cites W2110220841 @default.
W2763022503 cites W2111062994 @default.
W2763022503 cites W2119585240 @default.
W2763022503 cites W2119842512 @default.
W2763022503 cites W2126358859 @default.
W2763022503 cites W2133795748 @default.
W2763022503 cites W2138438719 @default.
W2763022503 cites W2143555932 @default.
W2763022503 cites W2183272845 @default.
W2763022503 cites W2250553526 @default.
W2763022503 cites W2313796063 @default.
W2763022503 cites W2313805783 @default.
W2763022503 cites W2324576880 @default.
W2763022503 cites W2327037001 @default.
W2763022503 cites W2332378402 @default.
W2763022503 cites W2334176011 @default.
W2763022503 cites W2345949158 @default.
W2763022503 cites W2477575899 @default.
W2763022503 cites W2481038980 @default.
W2763022503 cites W2493319604 @default.
W2763022503 cites W2512106873 @default.
W2763022503 cites W2553427298 @default.
W2763022503 cites W2554622791 @default.
W2763022503 cites W2558042805 @default.
W2763022503 cites W2558958743 @default.
W2763022503 cites W2602855330 @default.
W2763022503 cites W2607275551 @default.
W2763022503 cites W2617047346 @default.
W2763022503 cites W2632743882 @default.
W2763022503 cites W2908916379 @default.
W2763022503 cites W3101719451 @default.
W2763022503 cites W4241456496 @default.
W2763022503 cites W6763576 @default.
W2763022503 cites W963034637 @default.
W2763022503 doi "https://doi.org/10.1016/j.apsusc.2017.09.259" @default.
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