声明
摘要
ABSTRACT
List of Abbreviation
CHAPTER 1 INTRODUCTION AND OBJECTIVES
1.1 Nanotechnology
1.2 Photocatalysis
1.3 Synthesis of Photo materials
1.3.1 Physical Methods of Synthesis
1.3.2 High Energy Ball Milling
1.3.3 Physical Vapour Deposition
1.3.4 Laser Vapourization
1.4 Chemical Method of Synthesis
1.4.1 Synthesis of Metal Photo materials By Colloidal Route
1.4.2 Co-precipitation Methods
1.4.4 Biological Methods
1.5 Synthesis Using Microorganisms
1.5.1 Synthesis Using DNA
1.5.2 Synthesis Using Plant Extracts
1.6 Problems in the Synthesis of Photo catalyst
1.7 Molecular Imprinting Polymer(MIP)
1.7.1 Problems in the synthesis of MIP
1.7.2 Approaches to synthesis of MIP
1.8 Covalent imprinting strategies
1.8.1 Non-covalent amalgamation strategy
1.9 Application in different fields
1.9.1 Application of photo catalysis
1.10 Application of MIP
1.10.1 Crude oil separation
1.10.2 Separation of carbohydrates
1.10.3 Separation of lipids
1.10.4 Separation of Vitamins
1.10.5 Drug separation
1.11 Aims and Objectives
CHAPTER 2 EXPERIMENTAL SECTION
2.1 Experimental Section
2.2.2.Biosynthesis of zinc oxide and cadmium/zinc oxide nanocomposite using the Guava leaf extract
2.3 Synthetic methodology of MIP
2.3.2 Synthesis of magnetic MIP(Fe3O4@PDA/Shikimic Acid/PEI) composite nanoparticle
2.4 Photo catalytic degradation measurements
CHAPTER 3 Greenish fabrication of Cd/ZnO and its photo catalytic degradation activity
3.1 Introduction
3.2 RESULT AND DISCUSSION
3.2.1 UV analysis
3.2.2 Crystallographic measurements
3.2.3 Surface morphology measurements
3.2.4 Microstructure investigation and chemical composition
3.2.5 Surface properties measurements
3.3 Photocatalytic degradation activity
3.4 Stability of the Material
3.5 Kinetic studies
3.5.1 Electrochemical impedance spectra(EIS)measurements
CHAPTER 4 Fabrication of magnetic molecular imprinting polymer for the separation of shikimic Acid
4.1 Introduction
4.2 Results and discussion
4.2.1 Fourier Transform Infra-Red spectroscopy
4.2.2 Techniques for Template Formation
4.3 Adsorption tests on MIP
4.4 Adsorption on NIP
4.5 Selectivity of the MIP
CHAPTER 5 CONCLUSIONS
Innovations of the study
Future plan
List of Publication
Acknowledgments
Introduction of Author and Supervisor
References