A comprehensive study on methods and materials for photocatalytic water splitting and hydrogen production as a renewable energy resource
High energy consumption, rapid increase in its demand and depletion of energy resources
in the world are compelling the researchers for exploration of renewable energy resources …
in the world are compelling the researchers for exploration of renewable energy resources …
Photocorrosion inhibition of sulphide‐based nanomaterials for energy production through photocatalytic water splitting
S Yaseen, MB Tahir, AG Wattoo - International Journal of …, 2022 - Wiley Online Library
To overcome the energy shortage and environmental pollution, sunlight is considered an
ideal source to solve these problems. Photocatalyst water splitting for H2 production by …
ideal source to solve these problems. Photocatalyst water splitting for H2 production by …
Metal sulphide semiconductors for photocatalytic hydrogen production
Photocatalytic hydrogen production using semiconductor materials is one of the ideal
processes for direct solar energy conversion. Sulphide semiconductor photocatalysts have …
processes for direct solar energy conversion. Sulphide semiconductor photocatalysts have …
Oriented Built-in Electric Field Introduced by Surface Gradient Diffusion Doping for Enhanced Photocatalytic H2 Evolution in CdS Nanorods
Element doping has been extensively attempted to develop visible-light-driven
photocatalysts, which introduces impurity levels and enhances light absorption. However …
photocatalysts, which introduces impurity levels and enhances light absorption. However …
Synthesis and enhanced photocatalytic property of Ni doped ZnS nanoparticles
M Jothibas, C Manoharan, SJ Jeyakumar, P Praveen… - Solar Energy, 2018 - Elsevier
Abstract Pure and Ni (0.5–2.0%) doped ZnS nanoparticles were prepared by an inexpensive
solid state reaction method. The structural, functional, optical, morphological and chemical …
solid state reaction method. The structural, functional, optical, morphological and chemical …
An efficient hydrogen evolution catalyst composed of palladium phosphorous sulphide (PdP∼ 0.33 S∼ 1.67) and twin nanocrystal Zn 0.5 Cd 0.5 S solid solution with …
J Song, H Zhao, R Sun, X Li, D Sun - Energy & Environmental Science, 2017 - pubs.rsc.org
ZnxCd1− xS solid solutions have been successfully demonstrated as excellent visible light
responsive catalysts for hydrogen evolution from water in the presence of sacrificial …
responsive catalysts for hydrogen evolution from water in the presence of sacrificial …
Mn2+ doped AgInS2 photocatalyst for formaldehyde degradation and hydrogen production from water splitting by carbon tube enhancement
X Gu, C Tan, L He, J Guo, X Zhao, K Qi, Y Yan - Chemosphere, 2022 - Elsevier
In this work, AgInS 2 and Mn 2+ doped AgInS 2 (Mn–AgInS 2) with different Mn 2+:(Ag++ In
3+) ratios were synthesized via a low temperature liquid method. The photocatalytic activity …
3+) ratios were synthesized via a low temperature liquid method. The photocatalytic activity …
Enhanced Visible‐Light Photocatalytic H2 Production by ZnxCd1−xS Modified with Earth‐Abundant Nickel‐Based Cocatalysts
The application of various earth‐abundant Ni species, such as NiS, Ni, Ni (OH) 2, and NiO,
as a co‐catalyst in a ZnxCd1− xS system for visible‐light photocatalytic H2 production was …
as a co‐catalyst in a ZnxCd1− xS system for visible‐light photocatalytic H2 production was …
Bi-doped twin crystal Zn0. 5Cd0. 5S photocatalyst for highly efficient photocatalytic hydrogen production from water
G Yang, T Chen, H Liu, C Xing, G Yu, X Li - Applied Surface Science, 2023 - Elsevier
Bi doped twin crystal Zn 0.5 Cd 0.5 S (Bi/ZCS) was prepared for the first time via a facile
hydrothermal method and used as a highly efficient hydrogen production photocatalyst. Our …
hydrothermal method and used as a highly efficient hydrogen production photocatalyst. Our …
The roles of surface-doped metal ions (V, Mn, Fe, Cu, Ce, and W) in the interfacial behavior of TiO2 photocatalysts
S Chang, W Liu - Applied Catalysis B: Environmental, 2014 - Elsevier
Six types of transition metal ions, including V, Mn, Fe, Cu, Ce, and W, are doped into the
surface lattice of TiO 2 powders, and their roles in the charge trapping, recombination …
surface lattice of TiO 2 powders, and their roles in the charge trapping, recombination …