2017
DOI: 10.1021/acscatal.7b01551
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Enhanced Activity for CO2 Electroreduction on a Highly Active and Stable Ternary Au-CDots-C3N4 Electrocatalyst

Abstract: Electrochemical reduction of CO2 to carbon-containing fuels possesses the potential to solve the environmental issues caused by excess CO2 in the atmosphere. Herein, we introduce a ternary Au-CDots-C3N4 electrocatalyst for efficiently reducing CO2 to CO. The ternary catalyst exhibited significantly enhanced activity and stability for CO2 electroreduction in comparison with pure Au NPs. The Au-CDots-C3N4 electrocatalyst demonstrates a high CO FE of ∼79.8% at −0.5 V and a 2.8-fold enhancement of current density … Show more

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Cited by 106 publications
(63 citation statements)
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“…The NiO/CN‐2:1, thus, possess more favorable stability than that of NiO/C and commercial RuO 2 . The improved stability over NiO/CN‐2:1 is due to the synergetic effects over NiO and CN in that the good mechanical strength of g‐C 3 N 4 can act as substrate to suppress NiO nanocrystallines aggregating and falling off from the glassy carbon electrode . The NiO/CN‐2:1 after OER test is also characterized by XRD as displayed in Figure S2 of the Supporting Information.…”
Section: Resultsmentioning
confidence: 99%
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“…The NiO/CN‐2:1, thus, possess more favorable stability than that of NiO/C and commercial RuO 2 . The improved stability over NiO/CN‐2:1 is due to the synergetic effects over NiO and CN in that the good mechanical strength of g‐C 3 N 4 can act as substrate to suppress NiO nanocrystallines aggregating and falling off from the glassy carbon electrode . The NiO/CN‐2:1 after OER test is also characterized by XRD as displayed in Figure S2 of the Supporting Information.…”
Section: Resultsmentioning
confidence: 99%
“…Some other factors also influenced the OER efficiency. For instance, the CN could act as substrate for dispersing NiO nanocrystals and prevent nanoparticles aggregating, which provided more active sites and promote the OER performance . The electrochemical active surface area (ESCA) was thus analyzed as shown in Figure S7a of the Supporting Information.…”
Section: Resultsmentioning
confidence: 99%
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“…Most of the Bi‐based catalysts for CO 2 reduction reported previously are the metallic bismuth (Bi 0 ), whereas there are fewer reports of bismuth oxide for electrochemical reduction of CO 2 in aqueous solution . On the other hand, carbon quantum dots are desirable for an important component of photo‐ and electro‐catalysts owing to their large number of exposed edge sites and excellent electronic properties . Furthermore, the surface of carbon quantum dots is easily functionalized by amino groups (−NH 2 ), which can increase the CO 2 adsorption ability efficiently .…”
Section: Figurementioning
confidence: 99%
“…[13] Previous studies have proved that nano-sized electrodes have better catalytic performance for ECRs than traditional bulk materials. [14] With the rapid development of nanotechnology, numerous nanomaterials from zero dimensional (0D) to three dimensional (3D), such as copper, [14,15] silver, [16] gold, [17] palladium nanostructures, [18] and metal/nonmetal doped nanomaterials, [19][20][21] have been successfully used as electrodes for ECR. Most of these studies are mainly focused on metalbased electrocatalysts.…”
Section: Introductionmentioning
confidence: 99%