Two dimensional thin layer and p-type semiconductor for solar decomposition of water to produce hydrogen

Research

Exploration of the Mechanisms Related to Photocatalysis and Photoelectrocatalysis
Preparation of photoelectrodes and photovoltaic modules and study on photohydrogen conversion efficiency
Photocatalytic production of hydrogen peroxide from water using novel oxide n-type semiconductor materials
Research on ORR Reaction in High Efficiency Oxygen Reduction Catalysts
Design, synthesis, and optoelectronic properties of organic π molecules
Research on the Mechanism and Selectivity of CO2 Reduction
Research on Water Treatment and Environment
Two dimensional thin layer and p-type semiconductor for solar decomposition of water to produce hydrogen
Research on First Principles Calculation of Photocatalysis

Two dimensional thin layer and p-type semiconductor for solar decomposition of water to produce hydrogen

Sunlight splitting water to produce hydrogen is an ideal way to achieve clean energy production.

In recent years, two-dimensional materials have become a research hotspot due to their large

specific surface area and excellent conductivity. Although transition metal sulfides have shown

good performance as catalysts in solar water splitting for hydrogen production, there is still a

problem of photo generated electron hole pair recombination when used alone. We will combine

these materials with p-type semiconductor materials to effectively improve the efficiency of

photocatalytic reactions.And will focus on how to optimize the structure of two-dimensional

materials and explore the design of heterojunction systems to enhance carrier separation and

transport. Utilizing synthetic and regulatory methods to promote the development of solar water

splitting technology and advance the practical application of hydrogen energy production.