Plasma catalysis technology is emerging as a promising approach for addressing energy and environmental challenges in sustainability.This review provides an overview of plasma technology and summarizes recent advances...Plasma catalysis technology is emerging as a promising approach for addressing energy and environmental challenges in sustainability.This review provides an overview of plasma technology and summarizes recent advances in plasma catalysis from both experimental and theoretical perspectives.Current laboratory-scale studies have demonstrated the versatility of plasma catalysis in various processes,including carbon conversion,hydrogen production,and the removal of volatile organic compounds.The inherently complex environment of plasma catalysis requires in situ characterization and theoretical modeling to elucidate the underlying reaction mechanisms,which in turn guide the rational design of efficient catalysts and optimized reactor configurations.These advances are vital for enhancing the economic feasibility and accelerating the commercialization of this technology.Nevertheless,the scale-up and practical deployment of plasma-catalytic systems from laboratory to industrial scales remain challenging.In this review,we critically examine the current state of plasma catalysis research and its applications across a wide range of reactions.Particular attention is given to in situ mechanistic studies,reactor design,catalyst development,process scale-up,and theoretical modeling.Finally,we provide a forward-looking perspective on the opportunities and future directions to address existing challenges and harness the potential of plasma catalysis toward sustainable development.展开更多
基金the Central Research Fund(2022),the SCIENCE AND ENGINEERING RESEARCH COUNCIL,the A*STAR(Agency for Science,Technology and Research)the financial support from the Central Research Fund(2024),the SCIENCE AND ENGINEERING RESEARCH COUNCIL,the A*STAR(Agency for Science,Technology and Research)+2 种基金the financial support by the A*STAR AME IAF-PP grant(Grant No.A19E9a0103)the National Research Foundation,Singapore,and the A*STAR(Agency for Science,Technology and Research)under its LCERFI program Award No U2102d2002the financial support by the project under the Australian Research Council(Grant No.FL230100023).
文摘Plasma catalysis technology is emerging as a promising approach for addressing energy and environmental challenges in sustainability.This review provides an overview of plasma technology and summarizes recent advances in plasma catalysis from both experimental and theoretical perspectives.Current laboratory-scale studies have demonstrated the versatility of plasma catalysis in various processes,including carbon conversion,hydrogen production,and the removal of volatile organic compounds.The inherently complex environment of plasma catalysis requires in situ characterization and theoretical modeling to elucidate the underlying reaction mechanisms,which in turn guide the rational design of efficient catalysts and optimized reactor configurations.These advances are vital for enhancing the economic feasibility and accelerating the commercialization of this technology.Nevertheless,the scale-up and practical deployment of plasma-catalytic systems from laboratory to industrial scales remain challenging.In this review,we critically examine the current state of plasma catalysis research and its applications across a wide range of reactions.Particular attention is given to in situ mechanistic studies,reactor design,catalyst development,process scale-up,and theoretical modeling.Finally,we provide a forward-looking perspective on the opportunities and future directions to address existing challenges and harness the potential of plasma catalysis toward sustainable development.
