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W2775687036 endingPage "1306" @default.
W2775687036 startingPage "1296" @default.
W2775687036 abstract "Noble metal free MoS2/g-C3N4 catalyst has attracted intense attentions for visible light photocatalytic hydrogen evolution as a result of its earth abundance, low cost and unique heterojunctions stacked with two dimensional sheets. However, the low charge separation efficiency resulted from the poor conductivity of g-C3N4 and MoS2, and lack of abundant active sites from coordinative unsaturated atoms in MoS2, restricts the photocatalytic hydrogen evolution activity and stability enhancement of MoS2/C3N4 composite catalysts. Herein, CoMoS2/rGO/g-C3N4 catalysts with ternary heterojunctions are prepared by facile solvothermal method, which exhibit high visible light photocatalytic activity and stability for hydrogen evolution. The optimal hydrogen evolution rate of CoMoS2/rGO/g-C3N4 catalysts is 684 μmol g−1 h−1 when the content of CoMoS2 is 2% and the content of rGO is 0.5%. The stability of CoMoS2/rGO/C3N4 catalysts just decrease about 3% after 4 cycling runs for 16 h. The good catalytic performances of catalysts are attributed to the synergistic effect among the g-C3N4 nanosheets, rGO nanosheets and CoMoS2 nanosheets. The high conductivity of rGO nanosheets enhances the electron-hole separation and charge transfer, and Co doping increases the active sites for hydrogen evolution due to the increase of unsaturated atoms in CoMoS2 nanosheets." @default.
W2775687036 created "2017-12-22" @default.
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W2775687036 date "2018-03-01" @default.
W2775687036 modified "2023-10-11" @default.
W2775687036 title "CoMoS2/rGO/C3N4 ternary heterojunctions catalysts with high photocatalytic activity and stability for hydrogen evolution under visible light irradiation" @default.
W2775687036 cites W1853517821 @default.
W2775687036 cites W1941817914 @default.
W2775687036 cites W1961488656 @default.
W2775687036 cites W1967504293 @default.
W2775687036 cites W1971008178 @default.
W2775687036 cites W1974896731 @default.
W2775687036 cites W1976207033 @default.
W2775687036 cites W1977307971 @default.
W2775687036 cites W1979112470 @default.
W2775687036 cites W1987020734 @default.
W2775687036 cites W1987933164 @default.
W2775687036 cites W1992464644 @default.
W2775687036 cites W1992851935 @default.
W2775687036 cites W2016218870 @default.
W2775687036 cites W2019337869 @default.
W2775687036 cites W2024250911 @default.
W2775687036 cites W2043775186 @default.
W2775687036 cites W2044618285 @default.
W2775687036 cites W2046537181 @default.
W2775687036 cites W2049260058 @default.
W2775687036 cites W2050833870 @default.
W2775687036 cites W2057330747 @default.
W2775687036 cites W2067529228 @default.
W2775687036 cites W2078107904 @default.
W2775687036 cites W2099678608 @default.
W2775687036 cites W2120703005 @default.
W2775687036 cites W2125284466 @default.
W2775687036 cites W2128654538 @default.
W2775687036 cites W2129589243 @default.
W2775687036 cites W2131744028 @default.
W2775687036 cites W2133795748 @default.
W2775687036 cites W2146349866 @default.
W2775687036 cites W2147129542 @default.
W2775687036 cites W2148157055 @default.
W2775687036 cites W2150399639 @default.
W2775687036 cites W2169419554 @default.
W2775687036 cites W2170549062 @default.
W2775687036 cites W2202407046 @default.
W2775687036 cites W2207058808 @default.
W2775687036 cites W2244362186 @default.
W2775687036 cites W2274320972 @default.
W2775687036 cites W2316190666 @default.
W2775687036 cites W2316921421 @default.
W2775687036 cites W2322587632 @default.
W2775687036 cites W2325461697 @default.
W2775687036 cites W2330480058 @default.
W2775687036 cites W2332325213 @default.
W2775687036 cites W2336950183 @default.
W2775687036 cites W2343688025 @default.
W2775687036 cites W2346674610 @default.
W2775687036 cites W2401906193 @default.
W2775687036 cites W2402175288 @default.
W2775687036 cites W2427892499 @default.
W2775687036 cites W2481038980 @default.
W2775687036 cites W2519858288 @default.
W2775687036 cites W2553427298 @default.
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W2775687036 cites W2605287189 @default.
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W2775687036 cites W2732976774 @default.
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W2775687036 doi "https://doi.org/10.1016/j.apsusc.2017.12.001" @default.
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