High-Throughput Screening Methods for Catalyst Development: Bridging Experimentation and Theory
Keywords:
High-Throughput Screening (HTS), , Catalyst Development, Computational Modeling, Experimental Techniques, Catalytic Performance, Discovery and Optimization, Synergy of Experimentation and Theory, Advanced Screening Technologies, Reaction Mechanisms, Materials ScienceAbstract
High-throughput screening (HTS) methods have revolutionized catalyst development by enabling rapid and efficient evaluation of numerous candidates. This paper reviews the integration of HTS techniques with theoretical approaches to enhance catalyst discovery and optimization. It explores the advancements in experimental HTS technologies, the role of computational models in predicting catalytic performance, and the synergy between experimental and theoretical methods. By bridging these methodologies, researchers can accelerate the development of catalysts with improved activity, selectivity, and stability. The paper highlights case studies, discusses challenges, and provides future perspectives on the role of HTS in advancing catalyst research.
