Layered double hydroxide‐based photocatalytic materials toward renewable solar fuels production
Photocatalysis is an ideal and promising green technology to drive numerous chemical
reactions for valued chemicals production under very mild conditions, thereby providing …
reactions for valued chemicals production under very mild conditions, thereby providing …
Engineering 2D materials for photocatalytic water-splitting from a theoretical perspective
Splitting of water with the help of photocatalysts has gained a strong interest in the scientific
community for producing clean energy, thus requiring novel semiconductor materials to …
community for producing clean energy, thus requiring novel semiconductor materials to …
Indirect Z-scheme hydrogen production photocatalyst based on two-dimensional GeC/MoSi2N4 van der Waals heterostructures
The stacked two-dimensional materials with suitable band gap are crucial for photocatalytic
hydrogen production. Here, using first-principles calculations, the GeC/MoSi 2 N 4 …
hydrogen production. Here, using first-principles calculations, the GeC/MoSi 2 N 4 …
First-Principles Calculations of 2D Janus WSSiN2 Monolayer for Photocatalytic Water Splitting
G Yuan, X Ma, J Liao, T Xie, Q Xie… - ACS Applied Nano …, 2023 - ACS Publications
Hunting for high-performance photocatalysts to achieve efficient solar conversion is still far
from ideal goals. Here, a kind of Janus structure, ASSiN2 (A= Cr, Mo, W) monolayers, is first …
from ideal goals. Here, a kind of Janus structure, ASSiN2 (A= Cr, Mo, W) monolayers, is first …
Boosting the photocatalytic hydrogen evolution performance of monolayer C 2 N coupled with MoSi 2 N 4: density-functional theory calculations
Very recently, an important two-dimensional material, MoSi2N4, was successfully
synthesized. However, pure MoSi2N4 has some inherent shortcomings when used in …
synthesized. However, pure MoSi2N4 has some inherent shortcomings when used in …
High-Throughput computational screening and machine learning modeling of janus 2D III–VI van der waals heterostructures for solar energy applications
Two-dimensional Janus III–VI monolayers and corresponding van der Waals (vdW)
heterostructures present immense application potential in the solar energy conversion …
heterostructures present immense application potential in the solar energy conversion …
A novel design of SiH/CeO 2 (111) van der Waals type-II heterojunction for water splitting
Searching for economical low-dimensional materials to construct the highly efficient type-II
heterojunction photocatalysts for splitting water into hydrogen is very strategic. In this study …
heterojunction photocatalysts for splitting water into hydrogen is very strategic. In this study …
Janus XMoAZ2 (X= S, Se, Te; A= Si, Ge; Z= N, P, As) monolayers: First-principles insight into electronic structures, optical and photocatalytic properties
Z Gao, X He, W Li, Y He, K Xiong - Applied Surface Science, 2023 - Elsevier
With regards to the asymmetry in its structure, two-dimensional Janus materials exhibit
distinctive properties when compared to symmetric structures, which endows them with vast …
distinctive properties when compared to symmetric structures, which endows them with vast …
Physical modifications and algorithmic predictions behind further advancing 2D water splitting photocatalyst: an overview
It is becoming increasingly important to consider physical dimensions in addition to chemical
capabilities when designing material for a specific feature. The physical dimensions, optical …
capabilities when designing material for a specific feature. The physical dimensions, optical …
Two-dimensional blue-phase CX (X= S, Se) monolayers with high carrier mobility and tunable photocatalytic water splitting capability
Photocatalytic water splitting utilizing solar energy is considered as one of the most ideal
strategies for solving the energy and environmental issues. Recently, two-dimensional (2D) …
strategies for solving the energy and environmental issues. Recently, two-dimensional (2D) …