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W4254804328 abstract "This article aims to provide an understanding of photocatalysts for the creation of H2, which is a cleaner source of energy and is the “Holy Grail” of upcoming energy resources. Due to the production of hydrogen from fossil fuels, emission of CO2 poses many problems which further require negative-emission technologies; as a result, costs increase. Hydrogen obtained, on the other hand, via catalytic splitting of water and the photoelectrochemical process not only produces considerably fewer emissions but also is safer and easier to store and transport. Photoreforming is one such process utilized for the creation of H2. Photosynthesis is the phenomenon through which plants convert sunlight into sugar, which they then use as food. The same phenomenon of photocatalytic splitting of water is utilized here to divide H2O into H2 and O2, where H2 has further opted as fuel and oxygen for miscellaneous purposes. However, despite its promise, photocatalytic division of H2O into simple elements utilizing sunlight still suffers from low energy-conversion efficiency. Over the past couple decades, nano-organized substances have been of incredible interest worldwide because of their uniqueness. Moreover, the boundless uses of such materials in various fields have given them additional significance. Photocatalytic hydrogen production may utilize semiconductors and photocatalysts constituting of titanium, CdS, Zn oxide/S and some other MOs." @default.
W4254804328 created "2022-05-12" @default.
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W4254804328 date "2022-01-01" @default.
W4254804328 modified "2023-10-18" @default.
W4254804328 title "Photocatalysts for Hydrogen Production" @default.
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W4254804328 doi "https://doi.org/10.1016/b978-0-12-815732-9.00039-5" @default.
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