2023
DOI: 10.1039/d2ta07852j
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Cu5FeS4 quantum dots as a single-component photo-assisted electrocatalyst for efficient hydrogen evolution

Abstract: Photo-assisted electrocatalytic (P-EC) hydrogen evolution reaction (HER) has attracted extensive attention by directly integrating the photo- and electro-active materials, exhibiting dramatically improved activity and kinetics upon light irradiation. In this...

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Cited by 11 publications
(15 citation statements)
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“…When exposed to light, the photoactive components in the electrocatalyst excite the carriers, which subsequently migrate to participate in the decomposition of water. Photogenerated electrons can effectively diffuse from the conduction band to the electrocatalyst under the action of an external electric field and directly participate in reduction reactions, while reducing the energy barrier required for HER and compensating for power consumption [46,51]. The photogenerated holes in the valence band with strong oxidizability can directly react with the OHadsorbed on the electrode surface to generate OH*.…”
Section: Fundamental Principle Of Photo-assisted Electrocatalysis Str...mentioning
confidence: 99%
See 4 more Smart Citations
“…When exposed to light, the photoactive components in the electrocatalyst excite the carriers, which subsequently migrate to participate in the decomposition of water. Photogenerated electrons can effectively diffuse from the conduction band to the electrocatalyst under the action of an external electric field and directly participate in reduction reactions, while reducing the energy barrier required for HER and compensating for power consumption [46,51]. The photogenerated holes in the valence band with strong oxidizability can directly react with the OHadsorbed on the electrode surface to generate OH*.…”
Section: Fundamental Principle Of Photo-assisted Electrocatalysis Str...mentioning
confidence: 99%
“…tively diffuse from the conduction band to the electrocatalyst under the action of an external electric field and directly participate in reduction reactions, while reducing the energy barrier required for HER and compensating for power consumption [46,51]. The photogenerated holes in the valence band with strong oxidizability can directly react with the OHadsorbed on the electrode surface to generate OH*.…”
Section: Fundamental Principle Of Photo-assisted Electrocatalysis Str...mentioning
confidence: 99%
See 3 more Smart Citations