Ionic Liquid Mediated Synthesis of Nanoparticles for Novel Methodology

Abstract

This thesis provides a detailed exploration of the design and development of newlinenanoparticle synthesis using ionic liquids, as well as their application in various newlinecatalytic reactions. The thesis is divided into five chapters, each of which offers a newlinecomprehensive analysis of the subject matter. Chapter 1 serves as an introduction to newlinethe thesis, providing readers with background information, recent literature precedents, newlineand an explanation of the importance of catalysis in chemical reactions. The chapter newlinealso outlines the objectives of the thesis. In Chapter 2A, the focus is on the synthesis newlineand characterization of Task-Specific Ionic Liquids, and their application in CO2 newlinecapture. The experimental part of the thesis presented synthesis of diverse newlinenanocatalysts under specific conditions. In Chapter 2B, describes the synthesis newlinecharacterization of Supported Nanocatalysts. Chapter 3A and 3B detail the application newlineof supported ruthenium metal nanocatalysts in the catalytic hydrogenation of carbon newlinedioxide, and the application of Palladium exchanged sodium-montmorillonite clay in newlineMono and Double Mezoroki-Heck reactions, respectively. These chapters provide a newlinethorough explanation of the synthesis, characterization, and application of the newlinecatalysts. Chapter 4 describes the experimental methodology used in the study, newlineproviding a detailed analysis of the catalysts. Finally, Chapter 5 summarizes the newlinefindings and conclusions of the study, as well as discussing the future scope of newlineresearch in the field of ionic liquid-mediated synthesis of nanoparticles for catalytic newlineapplications. The recycling and stability study further adds to the significance of this newlineresearch, making it a valuable contribution to the scientific community. newlineOverall, this thesis offers valuable insights into the design, development, and newlineapplication of ionic liquid-mediated synthesis of nanoparticles in catalysis. newline