One-pot construction of S–Mo co-doped BiOCl toward simultaneously decreasing size, tuning energy band structure, and promoting charge separation for efficient photocatalytic degradation of organic pollutants
“…[34][35][36] Recently, Cui and colleagues have identified that BiOCl co-doped with S and Mo exhibits enhanced photocatalytic activity for pollutant degradation. 37 Similarly, Ajit and colleagues have enhanced the efficiency of photocatalytic water splitting for H 2 evolution by incorporating V and S into Ta 3 N 5 . 38 These findings collectively indicate that nonprecious metal-nonmetal co-doping is a viable strategy to enhance the HER performance of materials in photocatalytic applications.…”
Conducting three screening steps has led to the identification of nonprecious metal–nonmetal co-doped black phosphorene that is suitable for photocatalytic H2 evolution via water splitting.
“…[34][35][36] Recently, Cui and colleagues have identified that BiOCl co-doped with S and Mo exhibits enhanced photocatalytic activity for pollutant degradation. 37 Similarly, Ajit and colleagues have enhanced the efficiency of photocatalytic water splitting for H 2 evolution by incorporating V and S into Ta 3 N 5 . 38 These findings collectively indicate that nonprecious metal-nonmetal co-doping is a viable strategy to enhance the HER performance of materials in photocatalytic applications.…”
Conducting three screening steps has led to the identification of nonprecious metal–nonmetal co-doped black phosphorene that is suitable for photocatalytic H2 evolution via water splitting.
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