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Development of MXene-Based Hybrid Catalysts for Efficient Photo- electrochemical Hydrogen Production
production through photo-electrochemical (PEC) water splitting, emphasizing innovative, cost-effective materials and novel composite architectures. The work will focus on exploring MXenes (2D transition metal
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composition zeolites are efficient adsorbents and catalysts for a number of processes. However, there is still a lack of synthesis tools for generation of zeolite frameworks with predetermined topology
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of catalysis, sorption, and ion-exchange. Their advantage lies in properties, such as high adsorption capacity, defined microporosity (resulting in molecular sieving effect), adjustable chemical composition, and
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to their high surface area, molecular sieving effect, and versatility in chemical composition and structural topology. However, the hydrothermal synthesis process traditionally employed for their preparation is
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design of metal/metal-oxide cluster-based supported nanocatalysts for sustainable chemistry applications.The grand challenge in the field of supported nanocatalysts is to design materials with the maximum