Tianyou Peng
Wuhan University
H-index: 77
Asia-China
Top articles of Tianyou Peng
Nickel porphyrin/ZnIn2S4 heterojunction with Ni-S highway for boosting charge separation and visible-light-driven H2 production
Applied Catalysis B: Environment and Energy
2024/4/17
Fabrication of copper porphyrin-ruthenium pincer complex coupled polymer/Cs0. 33WO3 Z-scheme composite photocatalyst for highly efficient CO2 conversion
Applied Surface Science
2024/2/27
In-situ synthesis of single-atom CoNx clusters-decorated TiO2 for highly efficient charge separation and CO2 photoreduction
Applied Catalysis B: Environmental
2024/1/1
Architecture modification and In3+-doping of WO3 photoanodes to boost the photoelectrochemical water oxidation performance
Science China Chemistry
2023/11
Modulating the bridging units of carbon nitride for highly efficient charge separation and visible-light-responsive photocatalytic H2 evolution
Applied Catalysis B: Environmental
2023/9/15
An efficient synthetic route of quinoxalines from diols catalyzed by [RuCl2 (p-cymene)] 2/1, 4-bis (diphenylphosphino) butane
Journal of Organometallic Chemistry
2023/7/1
Porphyrin conjugated polymer/Pt-loaded graphite carbon nitride nanocomposites for efficient charge separation and broadband responsive H2 evolution
Nanotechnology
2023/5/18
Hydrogen‐Bond Regulation of the Microenvironment of Ni (II)‐Porphyrin Bifunctional Electrocatalysts for Efficient Overall Water Splitting
Advanced Materials
2023/5
Insight into the effect of B-doping on electronic structure and photocatalytic H2 evolution performance of C3N5 nanosheets
Journal of Photochemistry and Photobiology A: Chemistry
2023/3/1
Highly efficient conversion of nitrogen to ammonia on Au-decorated bioinspired polythiocyanuric acid photocatalyst
Applied Catalysis A: General
2023/1/25
Construction of rGO-coupled C3N4/C3N5 2D/2D Z-scheme heterojunction to accelerate charge separation for efficient visible light H2 evolution
Applied Catalysis B: Environmental
2022/12/5
A novel BiVO4/P3HT photoanode for highly efficient water oxidation and its hole energy offset effect with CuPc derivative
Applied Catalysis B: Environmental
2022/12/5
Hao Pei
H-Index: 5
Yanyan Zhang
H-Index: 21
Yang Zhou
H-Index: 3
Renjie Li
H-Index: 7
Tianyou Peng
H-Index: 50
An effective Z-scheme hybrid photocatalyst based on zinc porphyrin derivative and anatase titanium dioxide microsphere for carbon dioxide reduction
Materials Today Sustainability
2022/11/1
Efficient Strategy for Boosting the Solar-Driven Water Oxidation of the BiVO4 Photoanode by Using a CuPc Derivative as a Hole Transport Highway
ACS Applied Energy Materials
2022/8/15
Hao Pei
H-Index: 5
Yanyan Zhang
H-Index: 21
Renjie Li
H-Index: 7
Jing Zhang
H-Index: 7
Tianyou Peng
H-Index: 50
Structural Regulation of Coupled Phthalocyanine–Porphyrin Covalent Organic Frameworks to Highly Active and Selective Electrocatalytic CO2 Reduction
Advanced Materials
2022/7
Monoclinic WO3 nanosheets-carbon nanotubes nanocomposite based electrochemical sensor for sensitive detection of bisphenol A
Journal of Electroanalytical Chemistry
2022/6/15
Efficient CO2 reduction over a Ru-pincer complex/TiO2 hybrid photocatalyst via direct Z-scheme mechanism
Catalysis Science & Technology
2022/3/7
Co-porphyrin/Ru-pincer complex coupled polymer with Z-scheme molecular junctions and dual single-atom sites for visible light-responsive CO2 reduction
Chemical Engineering Journal
2022/3/1
Huan Niu
H-Index: 3
Haoran Liu
H-Index: 5
Jing Zhang
H-Index: 7
Renjie Li
H-Index: 7
Tianyou Peng
H-Index: 50
Metal center regulation of the porphyrin unit in covalent organic polymers for boosting the photocatalytic CO 2 reduction activity
Catalysis Science & Technology
2022
Xinming Li
H-Index: 5
Renjie Li
H-Index: 7
Jing Zhang
H-Index: 7
Yuexing Zhang
H-Index: 14
Tianyou Peng
H-Index: 50
Ru‐Pincer Complex‐Bridged Cu‐Porphyrin Polymer for Robust (Photo)Electrocatalytic H2 Evolution via Single‐Atom Active Sites
Advanced Functional Materials
2021/12
Lulu Guo
H-Index: 12
Yuexing Zhang
H-Index: 14
Jing Zhang
H-Index: 7
Renjie Li
H-Index: 7
Tianyou Peng
H-Index: 50
