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W2913325985 abstract "As one of the most popular photoanode materials for photoelectrochemical (PEC) water splitting, hematite (α-Fe2O3) suffers from low conductivity, severe electron–hole recombination, and sluggish water oxidation kinetics unfortunately. Herein, we report an alkali-treatment method to effectively accelerate the water oxidation kinetics of α-Fe2O3 and titanium doped α-Fe2O3 (Ti:α-Fe2O3) nanorod array photoanodes. The purpose of Ti-doping is to increase the conductivity of α-Fe2O3. The photocurrent densities increased 3- and 2-times for α-Fe2O3 and Ti:α-Fe2O3 photoanodes after KOH treatment, respectively. Transmission electron microscopy (TEM) and X-ray photoelectron spectroscopy (XPS) analyses demonstrated that a conformal thin layer grafted with hydroxyl (−OH) groups was formed on the hematite surface. Linear sweep voltammetry (LSV) curves under light irradiation and in the dark indicated that the thin OH-grafted overlayer behaved like an electrocatalyst to accelerate the water oxidation kinetics on hematite photoanodes. Moreover, XPS valence band (XPS-VB) spectra, Mott–Schottky analysis, and electrochemical impedance spectroscopy (EIS) revealed that a type II heterojunction was in situ formed by the OH-grafted overlayer on the hematite nanorod surface, which substantially enhanced the surface charge separation efficiency. The improved PEC performance could be attributed to the accelerated water oxidation kinetics and enhanced surface charge transfer." @default.
W2913325985 created "2019-02-21" @default.
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W2913325985 creator A5034469896 @default.
W2913325985 creator A5077834377 @default.
W2913325985 date "2019-02-01" @default.
W2913325985 modified "2023-10-17" @default.
W2913325985 title "Alkali Treatment for Enhanced Photoelectrochemical Water Oxidation on Hematite Photoanode" @default.
W2913325985 cites W1487094942 @default.
W2913325985 cites W1813842000 @default.
W2913325985 cites W1874429410 @default.
W2913325985 cites W1896289247 @default.
W2913325985 cites W1968488118 @default.
W2913325985 cites W1973373124 @default.
W2913325985 cites W1976389989 @default.
W2913325985 cites W1981155428 @default.
W2913325985 cites W1993305125 @default.
W2913325985 cites W1994864481 @default.
W2913325985 cites W2002065777 @default.
W2913325985 cites W2010052150 @default.
W2913325985 cites W2011447857 @default.
W2913325985 cites W2014690784 @default.
W2913325985 cites W2019880648 @default.
W2913325985 cites W2031539447 @default.
W2913325985 cites W2042492216 @default.
W2913325985 cites W2044781793 @default.
W2913325985 cites W2046102430 @default.
W2913325985 cites W2046620550 @default.
W2913325985 cites W2047683432 @default.
W2913325985 cites W2056183818 @default.
W2913325985 cites W2062973998 @default.
W2913325985 cites W2063964289 @default.
W2913325985 cites W2070491781 @default.
W2913325985 cites W2073739962 @default.
W2913325985 cites W2074482235 @default.
W2913325985 cites W2081023416 @default.
W2913325985 cites W2103833118 @default.
W2913325985 cites W2115607122 @default.
W2913325985 cites W2126624344 @default.
W2913325985 cites W2137331911 @default.
W2913325985 cites W2146544814 @default.
W2913325985 cites W2170724193 @default.
W2913325985 cites W2229997041 @default.
W2913325985 cites W2273902552 @default.
W2913325985 cites W2285591261 @default.
W2913325985 cites W2289596204 @default.
W2913325985 cites W2311299001 @default.
W2913325985 cites W2312527089 @default.
W2913325985 cites W2325743872 @default.
W2913325985 cites W2330389407 @default.
W2913325985 cites W2340995530 @default.
W2913325985 cites W2347189748 @default.
W2913325985 cites W2485875428 @default.
W2913325985 cites W2493210049 @default.
W2913325985 cites W2523730757 @default.
W2913325985 cites W2547881461 @default.
W2913325985 cites W2556149692 @default.
W2913325985 cites W2568011677 @default.
W2913325985 cites W2597879623 @default.
W2913325985 cites W2598141478 @default.
W2913325985 cites W2601739362 @default.
W2913325985 cites W2611157965 @default.
W2913325985 cites W2623620880 @default.
W2913325985 cites W2743280217 @default.
W2913325985 cites W2769111656 @default.
W2913325985 cites W2782192524 @default.
W2913325985 cites W2789428400 @default.
W2913325985 cites W2790485843 @default.
W2913325985 cites W2791702180 @default.
W2913325985 cites W2798089073 @default.
W2913325985 cites W2804193997 @default.
W2913325985 cites W2807653311 @default.
W2913325985 cites W2809268258 @default.
W2913325985 cites W2866664669 @default.
W2913325985 cites W2870496199 @default.
W2913325985 cites W2904803565 @default.
W2913325985 cites W4242300589 @default.
W2913325985 cites W4244766997 @default.
W2913325985 cites W4246674732 @default.
W2913325985 doi "https://doi.org/10.1021/acssuschemeng.8b06465" @default.
W2913325985 hasPublicationYear "2019" @default.
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