Engineering Schottky-like and heterojunction materials for enhanced photocatalysis performance–a review
Photocatalysis with nanostructured semiconductors is one of the most widely used
technologies for environmental remediation. However, the issues related to conventional …
technologies for environmental remediation. However, the issues related to conventional …
Research progress in organic synthesis by means of photoelectrocatalysis
P Li, T Zhang, MA Mushtaq, S Wu, X Xiang… - The Chemical …, 2021 - Wiley Online Library
The rapid development of radical chemistry has spurred several innovative strategies for
organic synthesis. The novel approaches for organic synthesis play a critical role in …
organic synthesis. The novel approaches for organic synthesis play a critical role in …
PVP surfactant-modified flower-like BiOBr with tunable bandgap structure for efficient photocatalytic decontamination of pollutants
Designing semiconductor catalysts with superior charge carrier transfer and adequately
exposed reactive sites is crucial for acquiring remarkable photocatalytic activity. Herein, a …
exposed reactive sites is crucial for acquiring remarkable photocatalytic activity. Herein, a …
Unravelling the Synergy between Phase Engineering and Interface Regulation in TiO2/1T-Rich MoSe2 Heterostructures for Efficient Photocatalytic Hydrogen …
L Sun, H Dong, J Xu, X Liu, H Tang - ACS Sustainable Chemistry …, 2023 - ACS Publications
Phase engineering and interface regulation are effective tactics to improve photocatalytic
performance. Combining these two effects in one photocatalytic heterostructure is …
performance. Combining these two effects in one photocatalytic heterostructure is …
Synergetic advantages of atomically coupled 2D inorganic and graphene nanosheets as versatile building blocks for diverse functional nanohybrids
Abstract 2D nanostructured materials, including inorganic and graphene nanosheets, have
evoked plenty of scientific research activity due to their intriguing properties and excellent …
evoked plenty of scientific research activity due to their intriguing properties and excellent …
An insight into carbon nanomaterial-based photocatalytic water splitting for green hydrogen production
At present, the energy shortage and environmental pollution are the burning global issues.
For centuries, fossil fuels have been used to meet worldwide energy demand. However …
For centuries, fossil fuels have been used to meet worldwide energy demand. However …
High efficacy of substrate dimensionality control in optimizing the specific capacitance and phase stability of hybridized nanostructures
The hybridization with conductive nanostructures has attracted intense research interest
because of its high efficiency in the exploration of efficient energy-functional materials. In this …
because of its high efficiency in the exploration of efficient energy-functional materials. In this …
Thermal and chemical phase engineering of two-dimensional ruthenate
L Nurdiwijayanto, K Hayashi, N Sakai, Y Ebina… - ACS …, 2023 - ACS Publications
Monolayer ruthenate nanosheets obtained by exfoliating layered ruthenium oxide exhibit
excellent electrical conductivity, redox activity, and catalytic activity, which render them …
excellent electrical conductivity, redox activity, and catalytic activity, which render them …
Controllable growth of coral-like CuInS2 on one-dimensional SiO2 nanotube with super-hydrophilicity for enhanced photocatalytic hydrogen evolution
H Yu, H Liang, J Bai, C Li - International Journal of Hydrogen Energy, 2022 - Elsevier
Designing a semiconductor photocatalyst with a unique structure is crucial for photocatalytic
hydrogen evolution. The adsorption of water molecules is considered to be an important link …
hydrogen evolution. The adsorption of water molecules is considered to be an important link …
Multilayer Conductive Hybrid Nanosheets as Versatile Hybridization Matrices for Optimizing the Defect Structure, Structural Ordering, and Energy‐Functionality of …
The hybridization of conductive nanospecies has garnered significant research interest
because of its high efficacy in improving the diverse functionalities of nanostructured …
because of its high efficacy in improving the diverse functionalities of nanostructured …