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Photo‐electrochemical water splitting represents a green and environmentally friendly method for producing solar hydrogen. Semiconductor nanomaterials with a highly accessible surface area, reduced charge migration distance, and tunable optical and electronic property are regarded as promising electrode materials to carry out this solar‐to‐hydrogen process. Since most of the photo‐electrochemical...
Several surface engineering methods have been demonstrated to be effective in tuning the surface properties of nanomaterials and consequently improving their photo‐ and electrochemical stability, charge separation/recombination efficiency, and kinetics of surface redox reactions for photoelectrochemical water splitting. In article number 1803746, Yat Li and co‐workers highlight and compare the nine...
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