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W3086253047 abstract "Abstract Bismuth vanadate (BiVO4) is being widely identified as a leading n-type semiconductor material for photoelectrochemical (PEC) water splitting. Nevertheless, achieving efficient PEC water oxidation process through BiVO4 photoanode still faces serious challenge such as severe electron-hole recombination. In this case, PEC activity of BiVO4 photoanode was enhanced by decoration of three-dimensional CoMn-layered double hydroxide (CoMn-LDH) nanoflakes on the BiVO4 surface via a facile electrodeposition process. It was suggested that CoMn-LDH played a synergistic effect on broadening internal light absorption, which accelerated injection of holes carrier to electrolyte and alleviated the electron-hole recombination, resulting in expediting faster PEC water oxidation reaction kinetics. Consequently, the photocurrent density of BiVO4/CoMn-LDH photoanode achieved 2.69 mA cm−2 at 1.23 VRHE, 2.45 times higher than the pristine BiVO4. What's more, 220 mV negative-shift took place on onset potential that was further decreased to 0.31 VRHE. The vastly enhanced PEC performance was also prioritized to those of Co and Mn single relatives. This work demonstrated that the synergistic BiVO4/CoMn-LDH as a capable candidate material, can be utilized for effective PEC water splitting." @default.
W3086253047 created "2020-09-21" @default.
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W3086253047 date "2020-11-01" @default.
W3086253047 modified "2023-10-12" @default.
W3086253047 title "BiVO4 photoanode decorated with cobalt-manganese layered double hydroxides for enhanced photoelectrochemical water oxidation" @default.
W3086253047 cites W1960492799 @default.
W3086253047 cites W1968150508 @default.
W3086253047 cites W1994636933 @default.
W3086253047 cites W1998243192 @default.
W3086253047 cites W2012021859 @default.
W3086253047 cites W2012177248 @default.
W3086253047 cites W2017872015 @default.
W3086253047 cites W2035300989 @default.
W3086253047 cites W2050338204 @default.
W3086253047 cites W2053303098 @default.
W3086253047 cites W2070491781 @default.
W3086253047 cites W2071952379 @default.
W3086253047 cites W2134546621 @default.
W3086253047 cites W2216081842 @default.
W3086253047 cites W2220555623 @default.
W3086253047 cites W2252366114 @default.
W3086253047 cites W2284429168 @default.
W3086253047 cites W2314817368 @default.
W3086253047 cites W2316358103 @default.
W3086253047 cites W2469645554 @default.
W3086253047 cites W2560005971 @default.
W3086253047 cites W2607300332 @default.
W3086253047 cites W2735242110 @default.
W3086253047 cites W2737997044 @default.
W3086253047 cites W2743034060 @default.
W3086253047 cites W2748840036 @default.
W3086253047 cites W2755531526 @default.
W3086253047 cites W2782567224 @default.
W3086253047 cites W2789804719 @default.
W3086253047 cites W2792376124 @default.
W3086253047 cites W2792662852 @default.
W3086253047 cites W2795089688 @default.
W3086253047 cites W2796644570 @default.
W3086253047 cites W2807391752 @default.
W3086253047 cites W2811924125 @default.
W3086253047 cites W2816303553 @default.
W3086253047 cites W2883101929 @default.
W3086253047 cites W2885902004 @default.
W3086253047 cites W2888831727 @default.
W3086253047 cites W2891436153 @default.
W3086253047 cites W2897580343 @default.
W3086253047 cites W2909033797 @default.
W3086253047 cites W2909609150 @default.
W3086253047 cites W2911932984 @default.
W3086253047 cites W2913748918 @default.
W3086253047 cites W2921140447 @default.
W3086253047 cites W2939748446 @default.
W3086253047 cites W2943732465 @default.
W3086253047 cites W2948006959 @default.
W3086253047 cites W2965050874 @default.
W3086253047 cites W2970243179 @default.
W3086253047 cites W2971093295 @default.
W3086253047 cites W2972395501 @default.
W3086253047 cites W2973668063 @default.
W3086253047 cites W2975124889 @default.
W3086253047 cites W2980532437 @default.
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W3086253047 cites W2991139637 @default.
W3086253047 cites W3000629064 @default.
W3086253047 cites W3002273569 @default.
W3086253047 cites W3006081990 @default.
W3086253047 cites W3034049634 @default.
W3086253047 doi "https://doi.org/10.1016/j.ijhydene.2020.08.224" @default.
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