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Full Screen- Title
- DEDICATION
- CERTIFICATE
- DECLARATION
- ACKNOWLEDGEMENT
- ABBREVIATIONS
- CONTENTS
- 1. Introduction and Objectives
- 1.1 Organisation of the Thesis
- 2. Polymer Metal Complexes: A Retrospective Survey
- 2.1 Polymer-metal complexes: Synthesis and classification
- 2.1.1 Pendant complexes
- (a) Monodentate pendant complexes
- (b) Polydentate pendant complexes
- 2.1 2 Intro and inter-molecularly bridged complexes
- 2.1.3 Polymerisation of coordinated monomers
- (a) Polymerisation of vinyl compounds containing metal complexes
- (b) Polycondensation of metal complexes containing free functional groups
- (c) Ring opening polymerisation
- 2.1.4 Polymers formed by the reaction of peripheral functional groups in metal complexes with polymers
- 2.1.5 Coordination Polymers
- (i) Linear coordinated polymers
- (a) Bifunctional ligands
- (b) Simple compound or ion as ligands
- (ii) Network-coordinated polymers
- 2.2 Applications of polymer-metal complexes
- 2.2.1 Natural chelating polymers
- 2.2.2 Ion selectivity
- 2.2.3 Catalytic activity
- 2.2.3.1. Basis of catalytic action
- (i) Oxidative addition and reductive elimination
- (ii) lnsertion reaction
- 2.2.3.2 Macromolecular effect on catalytic activities of polymer-metal complexes
- a) Porosity and surface area
- b) Nature of polymer support and extent of crosslinking
- c) Spacer effects
- d) Swelling and solvation of the macromolecular matrix
- 2.2.3.3 Types of reactions catalysed by polymer-anchored catalysts
- a) Oxidative reactions
- b) Hydrogenation reactions
- c) Hydroformylation
- d) Hydrosilysation
- e) Polymerisation initiation
- f) Hydrolysis
- 3. Synthesis and Characterisation of NNMBA-Cross linked Polyacrylic Acids and their Metal Complexes
- 3.1 Synthesis of 4-20 mol% NNMBA-cross linked polyacrylic acids
- 3.2 Preparation of sodium salt of NNMBA-cross linked polyacrylic acids
- 3.3 Metal ion complexation of NNMBA-cross linked polyacrylic acids
- 3.4 Influence of pH on metal ion binding
- 3.5 Swelling studies of 4-20 mol% NNMBA-cross linked polyacrylic acids
- 3.6 Characterisation of 4-20 mol% NNMBA-cross linked polyacrylic acids and their metal complexes
- 3.6.1 FT-IR spectra
- 3.6.2 13C CP-MAS NMR spectra
- 3.6.3 UV visible spectra
- 3.6.4 EPR spectra
- 3.6.5 Thermogravimetric analysis
- 3.6.6 Scanning electron microscopy
- 4. Synthesis and Characterisation of Acrylic Acid-N-Vinyl-2-Pyrrolidone Copolymers and their Metal Complexes
- 4.1 Synthesis of linear and 4 mol% TTEGDMA-, BDDMA- and NNMBA-cross linked acrylic acid-N-vinyl-2-pyrrolidone copolymers
- 4.1.1 Linear copolymer
- 4.1.2 TTEGDMA-, BDDMA-, and NNMBA-cross linked copolymers
- 4.2 Derivatisation of AA-NVP copolymers
- 4.3 Metal ion complexation of acrylic acid-N-vinyl-2-pyrrolidone copolymers
- 4.4 Influence of pH on metal ion complexation of AA-NVP copolymers
- 4.5 Swelling studies of various cross linked acrylic acid-N-vinyl-2-pyrrolidone copolymers
- 4.6 Characterisation of polymeric ligands and derived polymer-metal complexes
- 4.6.1 FT-IR spectra
- 4.6.2 12C CP-MAS NMR spectra
- 4.6.3 Nitrogen analysis
- 4.6.4 UV-vis. spectra
- 4.6.5 EPR spectra
- 4.6.6 Thermogravimetric analysis
- 4.6.7 Scanning electron microscopy
- 5. Catalytic Activity of Acrylic Acid Based Polymer-Metal Complexes in the Hydrolysis of p-Nitrophenyl Acetate
- 5.1 Catalytic activity of 4-20 mol% NNMBA-cross linked polyacrylic acid metal complexes
- 5.1.1 Effect of degree of NNMBA cross linking on the catalytic activity of metal complexes 4-20 cool% polyacrylic acids
- 5.1.2 Kinetics of hydrolysis of p-nitrophenyl acetate catalysed by Co (II) complex of 4 mol% NNMBA-cross linked polyacrylic acid
- 5.2 Acrylic acid-N- vinyl-2-pyrrolidone copolymer systems
- 5.2.1 Catalytic activity of linear AA-N VP copolymer-metal complexes
- 5.2.2 Catalytic activity of 4 mol% TTEGDMA-cross linked AA-NVP copolymer-metal complexes (1 1 system)
- 5.2.3 Catalytic activity of 4 mol % BDDMA-cross linked AA-NVP copolymer-metal complexes (1: 1 system)
- 5.2.4 Catalytic activity of NNMBA-cross linked AA-NVP copolymer metal complexes (1: 1 system)
- 5.2.5 Kinetics of hydrolysis of p-nitrophenyl acetate catalysed by Co (II) complex of 4 mol% TTEGDMA-cross linked AA-NVP copolymer system (1: 1)
- 5.2.6 Effect of the nature of cross linking agent on the catalytic activity of copolymer metal-complexes in the hydrolysis of p-nitrophenyl acetate
- 5.3 Effect of various parameters on the catalytic activity of acrylic acid based polymer-metal complexes in the hydrolysis of p-nitrophenyl acetate
- 5.4 Comparison between cross linked polyacrylic acid system and cross linked AA-NVP copolymer system
- 5.5 Comparison between linear and cross linked AA-NVP copolymer systems
- 6. Experimental
- 6.1 General
- 6.1.1 Materials
- 6.1.2 Instrumental
- 6.2 Synthesis of 4-20 mol % of NNMBA-cross linked polyacrylic acid
- 6.3 Synthesis of acrylic acid-N-vinyl-2-pyrrolidone copolymers
- 6.3.1 Linear copolymer
- 6.3.2 Cross linked copolymers
- 6.3.2.1 Synthesis of 4 mol% TTEGDMA-cross linked acrylic acid-N-vinyl-2 pyrrolidone copolymers
- 6.3.2.2 Synthesis of 4 mol% BDDMG4-cross linked acrylic acid-N-vinyl-2 pyrrolidone copolymers
- 6.3.2.3 Synthesis of 4 mol% NNMBA-cross linked acrylic acid-N-vinyl-2 pyrrolidone copolymers
- 6.4 Derivatisation of NNMBA-cross linked polyacrylic acids and acrylic acid-N-vinyl-2-pyrrolidone copolymers
- 6.5 Estimation of carboxyl capacity of polyacrylic acids and AA-NVP copolymers
- 6.6 Preparation of polymer-metal complexes: General procedure
- 6.7 Effect of pH on metal ion binding
- 6.8 Swelling studies
- 6.9 Recyclability of complexed resins
- 6.10 Catalytic activity of polymer-metal complexes: General procedure
- 7. Summary and Outlook
- References