Layered g-C3N4/TiO2 nanocomposites for efficient photocatalytic water splitting and CO2 reduction: a review
X Zhang - Materials Today Energy, 2022 - Elsevier
Solar-driven photocatalysts for water splitting and CO 2 reduction have been widely studied
for dealing with environmental pollution and energy sustainability issues. Among the most …
for dealing with environmental pollution and energy sustainability issues. Among the most …
Photocatalytic active metal–organic framework and its derivatives for solar-driven environmental remediation and renewable energy
Photocatalytic active metal–organic frameworks (PA-MOFs) and MOFs-derived photocatalyst
has been extensively utilized in various heterogeneous photocatalytic applications due to …
has been extensively utilized in various heterogeneous photocatalytic applications due to …
S-scheme heterojunction photocatalysts for CO2 reduction
Summary Step-scheme (S-scheme) heterojunctions have been widely applied in
photocatalytic CO 2 reduction because they facilitate the spatial separation of …
photocatalytic CO 2 reduction because they facilitate the spatial separation of …
Pt clusters in carbon network to enhance photocatalytic CO2 and benzene conversion of WOx/g-C3N4 nanosheets
X Zhang, K Matras-Postolek, P Yang - Carbon, 2023 - Elsevier
Noble metals in carbon networks dramatically improve the carrier separation and transfer
efficiencies of layered graphic carbon nitride (gC 3 N 4) based heterostructures for efficient …
efficiencies of layered graphic carbon nitride (gC 3 N 4) based heterostructures for efficient …
EPR Investigation on Electron Transfer of 2D/3D g‐C3N4/ZnO S‐Scheme Heterojunction for Enhanced CO2 Photoreduction
Photocatalytic conversion of CO2 into useful products is a promising technology from
environmental and economic viewpoints. However, the efficiency of current photocatalytic …
environmental and economic viewpoints. However, the efficiency of current photocatalytic …
Rapid Self-Decomposition of gC3N4 During Gas–Solid Photocatalytic CO2 Reduction and Its Effects on Performance Assessment
We report direct evidence of the rapid self-decomposition of graphitic carbon nitride (g-
C3N4), a popular photo (electro) catalyst, during the gas–solid photocatalytic reaction …
C3N4), a popular photo (electro) catalyst, during the gas–solid photocatalytic reaction …
Bismuth-based Z-scheme structure for photocatalytic CO2 reduction: A review
X Hu, R Guo, X Chen, Z Bi, J Wang, W Pan - Journal of Environmental …, 2022 - Elsevier
Photocatalytic reduction of CO 2 into hydrocarbon fuels, utilizing inexhaustible solar energy
to simulate natural photosynthesis, is a promising approach to simultaneously alleviate …
to simulate natural photosynthesis, is a promising approach to simultaneously alleviate …
In situ growth strategy synthesis of single-atom nickel/sulfur co-doped g-C3N4 for efficient photocatalytic tetracycline degradation and CO2 reduction
J Xu, Y Chen, M Chen, J Wang, L Wang - Chemical Engineering Journal, 2022 - Elsevier
Herein, a single-atom Ni/S co-doped gC 3 N 4 (Ni/S-CN-N) was prepared via thermal
polymerization of urea/thiourea complexes of Ni followed by secondary calcination with NH …
polymerization of urea/thiourea complexes of Ni followed by secondary calcination with NH …
Solar‐powered chemistry: Engineering low‐dimensional carbon nitride‐based nanostructures for selective CO2 conversion to C1C2 products
CO2 capture and conversion has been prospected as an auspicious technology to
simultaneously tackle the rise in global CO2 emission and produce value‐added fuels with …
simultaneously tackle the rise in global CO2 emission and produce value‐added fuels with …
Graphene-like graphitic carbon nitride (g-C3N4) as a semiconductor photocatalyst: Properties, classification, and defects engineering approaches
Graphitic carbon nitride (gC 3 N 4) is a promising polymeric semiconductor comprised of
carbon and nitrogen, both of which have natural abundance, making it an attractive and …
carbon and nitrogen, both of which have natural abundance, making it an attractive and …