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W4223536874 endingPage "124086" @default.
W4223536874 startingPage "124086" @default.
W4223536874 abstract "• CdSe/SnO 2 with feasible strategy was fabricated for enhanced OER and overall water splitting. • Synergistic effect exhibited due to the superior active sites in the composite. • It displaying the exceptional lower overpotential (233 mV) for OER, reaching at current density 10 mA/cm 2 with smaller Tafel slope (89 mV dec -1 ) • It employed for overall water splitting in two electrode system with minute cell potential (2.4 V vs RHE). Various electrocatalysts were employed to explore bottleneck oxygen evolution reaction (OER), a critical and essential reaction in metal ion batteries and water splitting for obtaining clean hydrogen fuel. Replacement of noble metals catalysts with non-noble metals is trending due to their specific characteristics such as eco-friendly, cheap, and electrocatalytic activity. Herein, we synthesized CdSe/SnO 2 with a feasible strategy that is commercially favorable because of their non-expensive and ease of availability as well as their enhanced catalytic activity supporting overall water splitting. Several characterization techniques were performed to confirm and analyze the successful synthesis and activity of CdSe/SnO 2 nanocomposite. The unique morphology of nanocomposite exhibits enhanced surface area, which increases active sites with abundant charge transfer potential and also supports the material for an extended period. Synergistic effect exhibited due to the superior active sites and the composite display an exceptional lower overpotential (233 mV) for OER, reaching at current density (j) of 10 mA cm −2 with smaller Tafel slope of 89 mV dec -1 , showing high charge transfer during the OER representing good electrocatalytic performance on the graphite pencil electrode (GPE). The synthesized material is also used for overall water splitting with minute cell potential (2.4 V vs. RHE). The nanocomposite design by this strategy can also be used for many other materials to enhance the efficiency of the materials for future applications." @default.
W4223536874 created "2022-04-15" @default.
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W4223536874 date "2022-08-01" @default.
W4223536874 modified "2023-10-16" @default.
W4223536874 title "CdSe supported SnO2 nanocomposite with strongly hydrophilic surface for enhanced overall water splitting" @default.
W4223536874 cites W1103568214 @default.
W4223536874 cites W1982677496 @default.
W4223536874 cites W1993040699 @default.
W4223536874 cites W2005345756 @default.
W4223536874 cites W2028632677 @default.
W4223536874 cites W2029452497 @default.
W4223536874 cites W2032100925 @default.
W4223536874 cites W2058814771 @default.
W4223536874 cites W2060742060 @default.
W4223536874 cites W2076066692 @default.
W4223536874 cites W2081312413 @default.
W4223536874 cites W2094559512 @default.
W4223536874 cites W2116230805 @default.
W4223536874 cites W2166162385 @default.
W4223536874 cites W2167190086 @default.
W4223536874 cites W2171034745 @default.
W4223536874 cites W2258326036 @default.
W4223536874 cites W2309991000 @default.
W4223536874 cites W2318102809 @default.
W4223536874 cites W2418822579 @default.
W4223536874 cites W2560124491 @default.
W4223536874 cites W2565391790 @default.
W4223536874 cites W2588399206 @default.
W4223536874 cites W2592834510 @default.
W4223536874 cites W2606911822 @default.
W4223536874 cites W2724247113 @default.
W4223536874 cites W2744320410 @default.
W4223536874 cites W2750837981 @default.
W4223536874 cites W2774903341 @default.
W4223536874 cites W2782192511 @default.
W4223536874 cites W2786356280 @default.
W4223536874 cites W2788728190 @default.
W4223536874 cites W2794203012 @default.
W4223536874 cites W2799743294 @default.
W4223536874 cites W2883263021 @default.
W4223536874 cites W2883648988 @default.
W4223536874 cites W2887033416 @default.
W4223536874 cites W2907297823 @default.
W4223536874 cites W2910305359 @default.
W4223536874 cites W2917344915 @default.
W4223536874 cites W2921995149 @default.
W4223536874 cites W2923269008 @default.
W4223536874 cites W2940651603 @default.
W4223536874 cites W2943163414 @default.
W4223536874 cites W2947925219 @default.
W4223536874 cites W2962710682 @default.
W4223536874 cites W2963121875 @default.
W4223536874 cites W2969760675 @default.
W4223536874 cites W2976910056 @default.
W4223536874 cites W2979605953 @default.
W4223536874 cites W2981724499 @default.
W4223536874 cites W2984010472 @default.
W4223536874 cites W3004817823 @default.
W4223536874 cites W3008480996 @default.
W4223536874 cites W3010991942 @default.
W4223536874 cites W3011901584 @default.
W4223536874 cites W3049026356 @default.
W4223536874 cites W3081025932 @default.
W4223536874 cites W3085735257 @default.
W4223536874 cites W3103652987 @default.
W4223536874 cites W3113238525 @default.
W4223536874 cites W3123664018 @default.
W4223536874 cites W3164091668 @default.
W4223536874 cites W3182386327 @default.
W4223536874 cites W3206371182 @default.
W4223536874 cites W3208367233 @default.
W4223536874 cites W4200419020 @default.
W4223536874 cites W4220937241 @default.
W4223536874 cites W4230309230 @default.
W4223536874 cites W2017314299 @default.
W4223536874 doi "https://doi.org/10.1016/j.fuel.2022.124086" @default.
W4223536874 hasPublicationYear "2022" @default.
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