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LiNbO3 Coating on Concrete Surface: A New and Environmentally Friendly Route for Artificial Photosynthesis
Published 2013-01-01“…The use of LiNbO3 photocatalyst in concrete material would be more beneficial since it can produce artificial photosynthesis in concrete. In these research photoassisted solid-gas phases reduction of carbon dioxide (artificial photosynthesis) was performed using a photocatalyst, LiNbO3, coated on concrete surface under illumination of UV-visible or sunlight and showed that LiNbO3 achieved high conversion of CO2 into products despite the low levels of band-gap light available. …”
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Photocatalytic Materials and Photocatalytic Reactions
Published 2025-01-01“…This Special Issue, titled “Photocatalytic Materials and Photocatalytic Reactions”, focuses on designing advanced photocatalysts, understanding their structure-dependent properties, and seeking to exploit them in the fields of energy conversion, pollutant degradation, artificial photosynthesis, organic synthesis, etc [...]…”
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Advanced Catalysis and Nanostructure Design for Solar Energy Conversion
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Inorganic Photochemistry and Solar Energy Harvesting: Current Developments and Challenges to Solar Fuel Production
Published 2019-01-01“…The so-called artificial photosynthesis has called the attention of researchers due to the possibility of using solar photocatalysts in converting water and CO2 into fuels. …”
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Design and Construction of a Solar Installation System for a Reading Room at St. Johns Secondary School Ikumba.
Published 2024“…It is radiant heat from the sun that's a natural source of energy using a range of ever-changing and developing technologies such as solar thermal energy, solar architecture, solar heating, molten salt power plants, and artificial photosynthesis. PV cells convert sunlight to direct current (DC) electricity. …”
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Molecular beam epitaxy, photocatalytic solar water splitting, and carrier dynamics of InGaN micro-network deep-nano structures
Published 2025-01-01“…GaN-based nanostructures are increasingly being used for a broad range of electronic as well as optoelectronic device applications, and more recently artificial photosynthesis and solar fuel generation. We have performed a detailed investigation of the molecular beam epitaxy and characterization of Mg-doped p-type InGaN micro-network nanostructures with lateral dimensions reaching as small as a few nanometers. …”
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3D N-heterocyclic covalent organic frameworks for urea photosynthesis from NH3 and CO2
Published 2025-01-01“…Abstract Artificial photosynthesis of urea from NH3 and CO2 seems to remain still essentially unexplored. …”
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New Approach of the Oxidant Peroxo Method (OPM) Route to Obtain Ti(OH)4 Nanoparticles with High Photocatalytic Activity under Visible Radiation
Published 2018-01-01“…Therefore, this work describes the preparation and characterization of a Ti(OH)4 catalyst with the modified surface for application in the photodegradation of organic compounds (methylene blue (MB) dye and the drug amiloride (AML)) and in the artificial photosynthesis process. Characterization results reveal that peroxo groups on the surface of the catalyst had a great influence on the optical properties of the Ti(OH)4 and consequently in its photocatalytic property. …”
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Solar‐Driven Hydrogen Peroxide Production via BiVO4‐Based Photocatalysts
Published 2025-01-01“…This review explores advancements in BiVO4‐based photocatalysts for H2O2 production, focusing on photocatalytic powder suspension (PS) and photoelectrochemical (PEC) systems, representing the main approaches for heterogenous artificial photosynthesis. An overview of fundamental principles, performance assessment methodologies, photocatalyst and photoelectrode development, and optimization of reaction conditions is provided. …”
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