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个人简介
My research interests in heterogeneous catalysis revolve around developing innovative catalytic systems and understanding fundamental principles to enable sustainable and efficient processes in these areas.
In the realm of renewable energy, my research focuses on exploring catalytic materials and reactions that can facilitate the conversion of renewable resources into valuable energy carriers. I am particularly interested in studying catalytic processes such as biomass conversion and carbon dioxide utilization. By investigating the kinetics, mechanisms, and surface interactions, I aim to design and optimize catalysts that exhibit high activity, selectivity, and stability under relevant operating conditions. This includes the exploration of earth-abundant and non-precious metal catalysts and metal oxides, as well as the development of catalytic systems for photochemical applications. Additionally, I am interested in exploring catalytic systems for water splitting and hydrogen production, focusing on developing sustainable cost-effective approaches for generating clean energy. Ultimately, my goal is to contribute to the development of sustainable and scalable technologies for renewable energy generation.
In the field of water treatment, I am dedicated to developing catalytic solutions that can address water scarcity and contamination challenges. I am particularly interested in the removal of pollutants, organic compounds, and emerging contaminants from water sources using advanced oxidation processes and photocatalysis. By investigating the design and optimization of catalysts, as well as understanding the underlying reaction mechanisms, I aim to develop efficient and selective catalytic materials that can effectively degrade pollutants and ensure clean water supplies.
Furthermore, my research interests extend to the development of multifunctional catalyst systems that can address the nexus of renewable energy and water treatment. I am enthusiastic about exploring integrated catalytic processes that can simultaneously address both energy generation and water treatment challenges. This includes investigating catalytic materials and reactor designs for combined water purification and energy recovery as well as exploring synergistic catalyst systems for co-oxidation processes. By merging these fields, I aim to contribute to developing sustainable technologies that can simultaneously address multiple environmental challenges.
Overall, my research interests in heterogeneous catalysis for renewable energy and water treatment encompass the exploration of catalysts, reaction kinetics, surface interactions, and process optimization. By conducting interdisciplinary research and collaborating with experts from various fields, I aim to contribute to the development of efficient and sustainable solutions that can mitigate the environmental impact of energy generation and ensure clean water supplies for a better future.
研究兴趣
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2023 IEEE SENSORSpp.1-4, (2023)
Heliyonno. 5 (2023): e16216-e16216
SENSORS AND ACTUATORS REPORTS (2023): 100154-100154
European Journal of Chemistryno. 3 (2023): 362-369
Catalystsno. 1104 (2022): 1104
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