Exploring AZO overlay on CZTS/CdS photocathode for solar water splitting by Lim, Nathan Long Jun

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Application of cobalt based polyoxometalates and zirconia nanocomposite for electrocatalytic water splitting by Wai, Jia Min

“…One promising method is the usage of transition metals as a water oxidation catalyst to speed up the rate of the water-splitting reaction. However, the high cost associated with transition metals prevents them from being an optimal choice. …”
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Copper nanostructures for photocatalytic water-splitting and non-enzymatic glucose biosensing by Pan, Pei Hua

“…In this project, various copper-based nanostructures are developed in search for their application in photoelectrochemical (PEC) water splitting and glucose sensing reaction. Synthesis is conducted by disproportionation of copper and addition of gold to enhance copper nanostructures’ catalytic properties. …”
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Investigation of LiCo2-xNixO4 for water splitting by Ong, Ying Xin

“…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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Novel transition metal phosphates (TMPs) - enhanced catalyst for electrochemical water splitting by Afrina Zaidi

“…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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Exploring cd-free buffer layer for CZTS photocathode for solar water splitting by Christianto, Wibie

“…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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Preparation of Nickel and Cobalt modified Ti-doped hematite photoanode for water splitting by Lim, Kenneth Zhao Wei

“…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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Self-intercalated metallic transition metal dichalcogenide for high current density water splitting by Long, Yan

“…Green hydrogen can be produced through water-splitting driven by electricity converted from other types of clean energy, such as solar and wind. …”
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Cobalt catalyst performance in a water splitting photocatalytic dye sensitized photelectrochemical cell by Ng, Wei Jian.

“…Co-Pi holds great potential to be an effective water oxidation catalyst in solar water splitting cells and improvement in the efficiency of dye-sensitized based photocatalytic water splitting systems is required in order to compete with more matured photovoltaic water splitting systems. …”
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Development of FTO inverse opal structural-based photoanodes for photoelectrochemical water splitting applications by Ng, Shi Yun

“…However, since solar energy is inconsistent due to geological differences, photoelectrochemical (PEC) water splitting were introduced to split water molecules into hydrogen and oxygen via the absorption of sunlight, where the former is stored as chemical fuels that can be transported or used upon demand. …”
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Fabrication of ~15nm noble metal HEA electrocatalyst by method of ALD and EJH for water-splitting by Quek, Zheng Yi

“…Electrocatalysts are key to improving the efficiency of water-splitting which is one of the main methods of producing hydrogen. …”
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Structural and electrochemical characterization of iron nickel hydroxide electrocatalyst for highly efficient water splitting applications by Nicholas

“…One of the inexpensive and eco-friendly methods to produce hydrogen gas includes electrocatalytic water splitting. However, the oxygen evolution reaction in this process remains as a bottleneck of the overall process due to its slow kinetics. …”
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Photocatalytic water splitting for hydrogen production using carbon nanotubes-based catalysts under visible light by Koh, Wing Hong.

“…Hydrogen production from photocatalytic water splitting using solar energy and photocatalysts is considered as one of the promising routes. …”
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Synthesis of metal-free g-C3N4/GO nanocomposites for enhanced solar water splitting by Lee, Jun Yan

“…Metal free polymeric graphitic carbon nitride (g-C3N4) has emerged as one of the photocatalytic materials that are suitable for water splitting, however, the estimated quantum efficiency is very low. …”
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Fabrication of MoS2/Al-doped ZnO core/shell inverse opal structure for water splitting by See Toh, Gerald Keat Hung

“…A photonic crystal is a suitable structure for water splitting application. It works by the cancellation of a range of wavelength due to its long-range ordered structure. …”
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Surface treatment study of hematite photoanode with atomic layer deposited zirconium(IV) oxide ultrathin film for water splitting applications by Low, Shu Han

“…This project sought to study the effect of enhancing photoelectrochemical cell (PEC) performance for water splitting applications through atomic layer deposition (ALD) surface treatment of ZrO2 on hematite photoanode. …”
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Synthesis of 2D titanium carbide (Ti3C2) for efficient hydrogen evolution by Lau, Sherman Swee Yang

“…The characterization techniques provided insights to the design of future MXene-based electrode for electrochemical water splitting.…”
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Water photolysis via multi-junction perovskite solar cell and highly active catalyst by Bui, Ngoc Tram

“…Amongst the production methods, sunlight-driven water splitting is known as the most popular way to obtain hydrogen from water. …”
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Preparation of nanostructured hematite film by electrodeposition for water spliting by Chong, Shi Min

“…Hematite stands out as a promising material for water splitting as it meets most of the basic requirements. …”
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Nanostructured Cu2O-based photocathode for artificial photosynthesis by Tan, Yong Ming

“…However, certain drawbacks still exist in cuprous oxide being photocathode in photoelectrochemical water splitting so further studies were carried out in order to improve the performance of Cu2O. …”
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