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      Hydrogen Production and In Situ Storage through Process of Water Splitting Using Mono/Binary Metal–Organic Framework (MOF) Structures as New Chief Photocatalysts

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          Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering.

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            Water splitting. Metal-free efficient photocatalyst for stable visible water splitting via a two-electron pathway.

            The use of solar energy to produce molecular hydrogen and oxygen (H2 and O2) from overall water splitting is a promising means of renewable energy storage. In the past 40 years, various inorganic and organic systems have been developed as photocatalysts for water splitting driven by visible light. These photocatalysts, however, still suffer from low quantum efficiency and/or poor stability. We report the design and fabrication of a metal-free carbon nanodot-carbon nitride (C3N4) nanocomposite and demonstrate its impressive performance for photocatalytic solar water splitting. We measured quantum efficiencies of 16% for wavelength λ = 420 ± 20 nanometers, 6.29% for λ = 580 ± 15 nanometers, and 4.42% for λ = 600 ± 10 nanometers, and determined an overall solar energy conversion efficiency of 2.0%. The catalyst comprises low-cost, Earth-abundant, environmentally friendly materials and shows excellent stability.
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              Metal-organic frameworks for artificial photosynthesis and photocatalysis.

              Solar energy is an alternative, sustainable energy source for mankind. Finding a convenient way to convert sunlight energy into chemical energy is a key step towards realizing large-scale solar energy utilization. Owing to their structural regularity and synthetic tunability, metal-organic frameworks (MOFs) provide an interesting platform to hierarchically organize light-harvesting antennae and catalytic centers to achieve solar energy conversion. Such photo-driven catalytic processes not only play a critical role in the solar to chemical energy conversion scheme, but also provide a novel methodology for the synthesis of fine chemicals. In this review, we summarize the fundamental principles of energy transfer and photocatalysis and provide an overview of the latest progress in energy transfer, light-harvesting, photocatalytic proton and CO2 reduction, and water oxidation using MOFs. The applications of MOFs in organic photocatalysis and degradation of model organic pollutants are also discussed.
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                Author and article information

                Contributors
                (View ORCID Profile)
                (View ORCID Profile)
                Journal
                Energy & Fuels
                Energy Fuels
                American Chemical Society (ACS)
                0887-0624
                1520-5029
                September 17 2020
                August 19 2020
                September 17 2020
                : 34
                : 9
                : 11660-11669
                Affiliations
                [1 ]Petroleum Refining Division, Egyptian Petroleum Research Institute, Nasr City, PO Box 11727 Cairo, Egypt
                [2 ]Analysis and Evaluation Division, Egyptian Petroleum Research Institute, Nasr City, PO Box 11727 Cairo, Egypt
                [3 ]EPRI-Nanotechnology Center, Egyptian Petroleum Research Institute, Nasr City, PO Box 11727 Cairo, Egypt
                Article
                10.1021/acs.energyfuels.0c01559
                e561646e-889e-4f06-86bf-c7d1df4601d6
                © 2020

                https://doi.org/10.15223/policy-029

                https://doi.org/10.15223/policy-037

                https://doi.org/10.15223/policy-045

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