Thesis Abstract

Abstract
This thesis focuses on the development of novel catalysts for sustainable green chemistry applications, aiming to address the increasing demand for environmentally friendly chemical processes. The research is motivated by the recognition of the detrimental impact of traditional chemical reactions on the environment and the urgent need for innovative solutions to mitigate these effects. Through a comprehensive literature review, various catalyst design strategies and their applications in green chemistry are examined. The study also investigates the synthesis and characterization of new catalyst materials with enhanced efficiency and selectivity for specific reactions. Chapter one provides an introduction to the research topic, outlining the background, problem statement, objectives, limitations, scope, significance, structure of the thesis, and definition of key terms. The subsequent chapter presents a detailed literature review encompassing ten key aspects related to catalyst development and green chemistry applications. This review serves as a foundation for understanding the current state of the field and identifying gaps that the research aims to fill. Chapter three delineates the research methodology, encompassing eight key components including catalyst synthesis, characterization techniques, reaction conditions, data analysis methods, and sustainability assessments. The experimental work involves the preparation of novel catalyst materials using various synthesis routes, followed by thorough characterization to elucidate their structural and chemical properties. The catalysts are then evaluated in model reactions to assess their catalytic performance, selectivity, and recyclability. Chapter four presents a comprehensive discussion of the findings, highlighting the key results and insights obtained from the experimental studies. The discussion delves into the catalytic efficiency of the novel materials, their potential for scaling up, and their environmental impact compared to conventional catalysts. The results are interpreted in the context of the existing literature and the broader implications for sustainable green chemistry practices. Chapter five offers a conclusive summary of the thesis, reiterating the key findings and their significance in advancing the field of green chemistry. The conclusion reflects on the contributions of the research, its limitations, and potential future directions for further exploration. Overall, this thesis contributes to the development of novel catalysts with enhanced sustainability and efficiency, paving the way for greener chemical processes and a more environmentally conscious industrial sector. Keywords Catalysts, Green Chemistry, Sustainable Chemistry, Novel Materials, Environmental Impact, Catalytic Efficiency, Sustainability, Chemical Processes, Innovation, Research Methodology.

Thesis Overview