Understanding The Mechanisms Of Catalytic Reactions On K10 Clay: A Comprehensive Study

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Anjali Dhiman, Gurmeet Kaur

Abstract

This systematic review delves into the mechanisms of catalytic reactions on K10 clay, synthesizing a wealth of experimental and computational insights to offer a comprehensive understanding. The catalytic versatility of K10 clay is dissected across diverse reactions, including esterification, aldol condensation, methane activation, biomass conversion, redox reactions, ester hydrolysis, and tandem reactions. Thematic analysis unravels the broad spectrum of applications for K10 clay, emphasizing the need for a nuanced understanding of reaction-specific mechanisms.

A critical comparative analysis of experimental and computational approaches showcases their complementary roles in unraveling the intricacies of K10 clay catalysis. The quality assessment process underscores the methodological rigor of individual studies, guiding the interpretation of findings. Practical implications for environmental remediation, fine chemical synthesis, and industrial processes are discussed, accompanied by identified gaps that delineate future research directions.


This systematic review not only advances the understanding of catalytic reactions on K10 clay but also serves as a template for future explorations in the dynamic realm of catalytic materials. With a foundation built on rigorous analysis and thoughtful integration of diverse findings, this review aims to inspire continued innovation and investigation in the field of catalysis research.

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