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Photocatalytic Hydrogen Evolution

Energy crises and global warming pose serious challenges to researchers in their attempt to develop a sustainable society for the future. Solar energy conversion is a remarkable, clean, and sustainable way to nullify the effects of fossil fuels. The findings of photocatalytic hydrogen production (PC...

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I tiakina i:
Hōputu: Online
Reo:Ingarihi
I whakaputaina: MDPI - Multidisciplinary Digital Publishing Institute 2021
Ngā marau:
photocatalysis
H2 generation
water splitting
solar energy
hydrogen production
methanol photo-splitting
heterojunction
CuS@CuGaS2
electron-hole recombination
perovskite oxynitride
band gap
density-functional theory
Niobium(V) oxide
graphitic carbon nitride
hydrothermal synthesis
H2 evolution
heterostructures
Z-Scheme
TiO2
g-C3N4
CdS
energy
spherical particle
disordered surface
photocatalysts
MoS2
MoSe2
photoelectrochemical deposition
rapid-thermal annealing
hydrogen evolution
CO2 reduction
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues
Urunga tuihono:ONIX_20210501_9783039363100_378
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Whakarāpopototanga:Energy crises and global warming pose serious challenges to researchers in their attempt to develop a sustainable society for the future. Solar energy conversion is a remarkable, clean, and sustainable way to nullify the effects of fossil fuels. The findings of photocatalytic hydrogen production (PCHP) by Fujishima and Honda propose that “water will be the coal for the future”. Hydrogen is a carbon-free clean fuel with a high specific energy of combustion. Titanium oxide (TiO2), graphitic-carbon nitride (g-C3N4) and cadmium sulfide (CdS) are three pillars of water splitting photocatalysts owing to their superior electronic and optical properties. Tremendous research efforts have been made in recent years to fabricate visible or solar-light, active photocatalysts. The significant features of various oxide, sulfide, and carbon based photocatalysts for cost-effective hydrogen production are presented in this Special Issue. The insights of sacrificial agents on the hydrogen production efficiency of catalysts are also presented in this issue.

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