One-step synthesis of CdS/BiOCl: efficient visible light reactive photocatalysts with Z-scheme heterogeneous structure

“…Compared with Co 9 S 8 and Ni 2 P, CSNP-2 shows a stronger photocurrent density, which means that CSNP-2 has a relatively low carrier recombination rate, indicating that the prepared CSNP-2 heterojunction material has a more efficient carrier separation and migration rate. 68…”

Co–P bond effect on an MOF-derived Co₉S₈hollow polyhedron supported Ni₂P co-catalyst for efficient photocatalytic hydrogen evolution

“…Compared with Co 9 S 8 and Ni 2 P, CSNP-2 shows a stronger photocurrent density, which means that CSNP-2 has a relatively low carrier recombination rate, indicating that the prepared CSNP-2 heterojunction material has a more efficient carrier separation and migration rate. 68…”

Co–P bond effect on an MOF-derived Co₉S₈hollow polyhedron supported Ni₂P co-catalyst for efficient photocatalytic hydrogen evolution

“…[25][26][27][28] More specifically, the photogenerated electrons and holes are retained in the valence band (VB) of OP and the conduction band (CB) of RP, allowing the participation of strong oxidation holes and reduction electrons in the subsequent photocatalytic reactions. 29,30 According to this concept, MoO 3 with a bandgap of 2.8-3.2 eV and with abundant reserves is non-toxic and has high chemical stability, and it was adopted as the OP component to achieve good UV and visible light response. However, it has drawbacks such as low photocatalytic efficiency and easy recombination of photogenerated electrons and holes.…”

Twinned crystal Cd_0.9Zn_0.1S/MoO₃ nanorod S-scheme heterojunctions as promising photocatalysts for efficient hydrogen evolution

“…[9] The photocatalytic reaction low density of solar energy can be transformed to a high density of the hydrogen; based on various factors of thinking, the use of a steady stream of solar energy resources for photocatalytic decomposition of water to produce hydrogen by the countries all over the world high attention, which has good prospects for development, is expected to be in more areas to industrial application. [10][11][12][13][14][15] As a member of AB 2 X 4 semiconductor family, ZnIn 2 S 4 has attracted wide attention due to its advantages of low toxicity, sufficient raw materials, simple chemical composition, mild reaction process, etc., and has been applied in many fields such as energy environment, absorbing materials, photocatalysis, etc. [16][17][18] Like other sulfides, it has good visible light response ability, its bandgap is adjustable in the range of 2.06-2.85 eV, which has a suitable conduction band (CB) potential for hydrogen evolution reaction.…”

Rational Construction of Electrostatic Self‐Assembly of Metallike MoP and ZnIn₂S₄ Based on Density Functional Theory to Form Schottky Junction for Photocatalytic Hydrogen Production