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141
Multicomponent Metal Oxide- and Metal Hydroxide-Based Electrocatalysts for Alkaline Water Splitting
Published 2023-04-01Subjects: “…alkaline water splitting…”
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142
Rational Design of Better Hydrogen Evolution Electrocatalysts for Water Splitting: A Review
Published 2022-06-01Subjects: Get full text
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143
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144
Water Splitting and Transport of Ions in Electromembrane System with Bilayer Ion-Exchange Membrane
Published 2020-11-01Subjects: Get full text
Article -
145
Low-Power Magnetron Sputtering Deposition of Antimonene Nanofilms for Water Splitting Reaction
Published 2022-03-01Subjects: Get full text
Article -
146
Stannous Tungstate Semiconductor for Photocatalytic Degradation and Photoelectrochemical Water Splitting: A Review
Published 2022-12-01Subjects: Get full text
Article -
147
Broadband Tamm Plasmons in Chirped Photonic Crystals for Light-Induced Water Splitting
Published 2022-03-01Subjects: “…water splitting…”
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Article -
148
Two-Dimensional Materials and Composites as Potential Water Splitting Photocatalysts: A Review
Published 2020-04-01Subjects: “…water splitting…”
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Article -
149
Selection of Solar Concentrator Design Concepts for Planar Photoelectrochemical Water Splitting Devices
Published 2020-10-01Subjects: “…photoelectrochemical water splitting…”
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150
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151
Pd–Co-Based Electrodes for Hydrogen Production by Water Splitting in Acidic Media
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152
Mild and Fast Construction of Ni-Based Electrodes for Industrial-Grade Water Splitting
Published 2023-04-01Subjects: Get full text
Article -
153
Redox Kinetics Study of Fuel Reduced Ceria for Chemical-Looping Water Splitting
Published 2017“…Chemical-looping water splitting is a novel and promising technology for hydrogen production with CO₂ separation. …”
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Article -
154
Investigation of LiCo2-xNixO4 for water splitting
Published 2021“…This reinforces the need for a cost effective and efficient catalyst for the bottleneck OER in water splitting. In this report, we investigate the OER activity of spinel type lithium-based transition metal oxides, LiCo2-xNixO4 (where x = 0, 0.2, 0.4, 0.6, 0.8), synthesised by thermal decomposition method with varying content of nickel and cobalt. …”
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Final Year Project (FYP) -
155
Novel transition metal phosphates (TMPs) - enhanced catalyst for electrochemical water splitting
Published 2022“…As the world moves toward a hydrogen economy and environmental sustainability, an effective and cost-effective electrocatalyst for hydrogen evolution reaction (HER) in electrochemical water splitting becomes increasingly important. We researched and synthesised an optimum metal phosphate with model stoichiometric ratio of Cobalt (Co) and Molybdenum (Mo) components to improve HER performance in this paper. …”
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Final Year Project (FYP) -
156
General and robust photothermal-heating-enabled high-efficiency photoelectrochemical water splitting
Published 2022“…The ability of photoanodes to simultaneously tailor light absorption, charge separation, and water oxidation processes represents an important endeavor toward highly efficient photoelectrochemical (PEC) water splitting. Here, a robust strategy is reported to render markedly improved PEC water splitting via sandwiching a photothermal Co3 O4 layer between a BiVO4 photoanode film and an FeOOH/NiOOH electrocatalyst sheet. …”
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Journal Article -
157
Theoretical design of novel Janus transitional metal dichalcogenides for catalytic water splitting
Published 2024Subjects: Get full text
Thesis-Doctor of Philosophy -
158
Towards solar fuels : photocatalyst development for water splitting and carbon dioxide reduction
Published 2014“…Solar fuels derived from solar energy are envisioned to replace fossil fuels for a sustainable earth and society. Photocatalytic water splitting for hydrogen (H2) production and photocatalytic carbon dioxide (CO2¬) reduction for gaseous or liquid fuels production are two of the most promising but challenging processes. …”
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Thesis -
159
Exploring cd-free buffer layer for CZTS photocathode for solar water splitting
Published 2018“…Its p-type nature, suitable band gap (Eg) of 1.5 eV and high optical absorption coefficient presents a huge potential for its application as a photocathode for photoelectrochemical solar water splitting. Theoretically, for a 1.5 eV band gap material, the maximum photocurrent achievable at 0 VRHE is 28 mAcm-2. …”
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Final Year Project (FYP) -
160
Preparation of Nickel and Cobalt modified Ti-doped hematite photoanode for water splitting
Published 2019“…Photoelectrochemical water splitting has been widely investigated as a promising technology to efficiently generate hydrogen fuel through utlilising solar energy for the dissociation of water into its constituent components of hydrogen and oxygen gas. …”
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Final Year Project (FYP)