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Photocatalytic Hydrogen Generationgases, mainly due to CO.. In this sense, heads of state around the world have committed themselves to new forms of energy that do not harm the planet. Among these, hydrogen has stood out, as it has an energy potential (142?kJ/g) much higher than fossil fuels. In addition, its burning produces only w

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Layered Double Hydroxides/Graphene-Based Materials for Photocatalytic Water Splittingater splitting applications. The chapter provides an overview of the fundamental principles of photocatalysis, highlighting the importance of water splitting as a sustainable method for hydrogen production. It discusses the unique properties and synergistic effects of combining LDHs and graphene, wh

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Graphene-Based Photocatalytic Water Splitting: Synthesis, Efficiency Assessment, and Future Prospectong these approaches, photocatalytic water splitting has gained prominence, harnessing sunlight to separate water into hydrogen and oxygen. Graphene, an exceptional two-dimensional material, has recently emerged as a focal point in photocatalysis due to its outstanding properties and potential to en

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,Klingenberg: Krümmung und Gestalt (1961),d the ever-expanding horizon of carbon. In this direction, the 2D material graphene is marked in rainbow colours for its fabulous features and the thus bestowed versatile applications. This chapter presents a note on graphene. A brief mention on the history of carbon in the service of man is provide

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Das zehnte Hilbertsche Problem,oint, photocatalysts have proved to be highly effective solutions for revolutionizing the energy and materials sectors, bringing environmental, and cost savings across a wide range of sectors. The purpose of this chapter is to survey the development and ongoing research into different photocatalytic

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