Doped nanomaterials: Application in hydrogen production via photocatalytic water splitting
A green and sustainable energy resource is needed to meet global energy demand and
minimize environmental pollution. Hydrogen (H 2) is a clean and renewable energy that can …
minimize environmental pollution. Hydrogen (H 2) is a clean and renewable energy that can …
Design strategy for photocatalytic hydrogen evolution reaction of TiO2: A review
H Ding, D Zha, S Han, N Jiang - Journal of the Taiwan Institute of Chemical …, 2023 - Elsevier
Background In several applications of artificial photosynthesis, photocatalytic hydrogen
evolution reaction can realize the conversion of light energy to hydrogen energy, showing …
evolution reaction can realize the conversion of light energy to hydrogen energy, showing …
Effective graphene incorporation of strontium niobate–doped titanium oxide for photocatalytic hydrogen production
To meet the increasing global demand for clean energy and mitigate the impact of CO 2
emissions on climate change, the production of photocatalytic hydrogen through water …
emissions on climate change, the production of photocatalytic hydrogen through water …
TiO2-based photocatalytic generation of hydrogen from water and wastewater
Among emerging techniques for energy recovery, photocatalytic water/wastewater splitting
has been recognized as a sustainable option to generate hydrogen. In this work, the working …
has been recognized as a sustainable option to generate hydrogen. In this work, the working …
Double-sided growth of MoSe2 nanosheets onto hollow zinc stannate (ZnO, ZnSnO3, and SnO2) nanofibers (h-ZTO) for efficient CO2 photoreduction
The design of photocatalysts that encourage the conversion of CO 2 into useful chemicals
has been a recent topic of interest, owing to the consequences of climate change. This study …
has been a recent topic of interest, owing to the consequences of climate change. This study …
Synergistic effect of surface modification and effective interfacial charge transfer over faceted g-C3N4/ZnSe heterojunction to enhance CO2 photoreduction activity
Heterojunction and surface modification are promising methods to boost the photocatalytic
CO 2 conversion efficiency which help to optimize the redox ability of photocatalysts and …
CO 2 conversion efficiency which help to optimize the redox ability of photocatalysts and …
Ti3C2‐modified g‐C3N4/MoSe2 S‐Scheme Heterojunction with Full‐Spectrum Response for CO2 Photoreduction to CO and CH4
X Chen, W Pan, L Hong, X Hu, J Wang, Z Bi… - …, 2023 - Wiley Online Library
Energy shortage and global warming caused by the extensive use of fossil fuels are urgent
problems to be solved at present. Photoreduction of CO2 is considered to be a feasible …
problems to be solved at present. Photoreduction of CO2 is considered to be a feasible …
Boosting photocatalytic CO 2 conversion using strongly bonded Cu/reduced Nb 2 O 5 nanosheets
Green energy production is becoming increasingly important in mitigating the effects of
climate change, and the photocatalytic approach could be a potential solution. However, the …
climate change, and the photocatalytic approach could be a potential solution. However, the …
Contemporary Progress on Photo-induced Green Hydrogen Evolution: Potential, Challenges, and Perspectives for the Hydrogen Energy based Economy-An Updated …
In the present context of the global energy crisis, green hydrogen is gaining attention as a
potent energy carrier. The hydrogen business has experienced a significant upsurge as a …
potent energy carrier. The hydrogen business has experienced a significant upsurge as a …
Schottky-Functionalized Type-II heterojunction of Ag/CuNb2O6/g-C3N4: Efficient photoredox capability of CO2 to valuable fuel products via gas phase adsorption
Owing to encyclopedic energy crises and ecological concerns, the conversion of solar
energy into sustainable value-added fuel products using a reasonable photocatalyst has …
energy into sustainable value-added fuel products using a reasonable photocatalyst has …