1,1-Diphenylethylene (DPE) and functional derivatives of DPE have been used to prepare a variety of novel copolymers by living anionic polymerization. This research focuses on exploiting reactivity ratios to prepare copolymers with a variety of structures including alternating, tapered, statistical and telechelic copolymers. The copolymers were analysed by a variety of techniques including 1D and 2D NMR spectroscopy, MALDI-ToF mass spectrometry, differential scanning calorimetry and transmission electron microscopy
A method for optimization of monomer feed compn. to obtain the most accurate reactivity ratios was d...
To explore the potential of myrcene (Myr) as a bio-based monoterpene comonomer for styrenic copolyme...
Designing and tuning a copolymerization process to obtain specific material properties is still fund...
Diphenylethylene (DPE) is a monomer which has attracted significant interest from both academia and ...
Living anionic polymerization (LAP) is the primary representative method of living polymerization an...
Many industrial polymerizations are copolymerizations in which two or more comonomers are copolymeri...
The foremost limitation of block copolymer synthesis is to polymerize two or more different types of...
Determining the monomer sequence distribution of copolymers is important when correlating copolymer ...
Trisubstituted Ethylene (TSE) monomers, ring substituted 2-phenyl-1, 1-dicyanoethylenes are synthesi...
A 1,1-diphenylethylene (DPE) derivative with an alkoxysilyl group (DPE-SiOEt) was synthesized. It wa...
1,1-Diphenylethylenene (DPE) was copolymerized anionically with styrene to yield well-defined altern...
In Chapter 1-3, properties and applications of block copolymers, synthetic methods especially living...
The sulfinyl precursor route for the synthesis of poly(p-phenylene vinylene) (PPV) materials via an ...
Amphiphilic copolymers have received significant attention in the last thirty years due to their exc...
Block copolymers containing both conducting and insulating segments are of interest due to their enh...
A method for optimization of monomer feed compn. to obtain the most accurate reactivity ratios was d...
To explore the potential of myrcene (Myr) as a bio-based monoterpene comonomer for styrenic copolyme...
Designing and tuning a copolymerization process to obtain specific material properties is still fund...
Diphenylethylene (DPE) is a monomer which has attracted significant interest from both academia and ...
Living anionic polymerization (LAP) is the primary representative method of living polymerization an...
Many industrial polymerizations are copolymerizations in which two or more comonomers are copolymeri...
The foremost limitation of block copolymer synthesis is to polymerize two or more different types of...
Determining the monomer sequence distribution of copolymers is important when correlating copolymer ...
Trisubstituted Ethylene (TSE) monomers, ring substituted 2-phenyl-1, 1-dicyanoethylenes are synthesi...
A 1,1-diphenylethylene (DPE) derivative with an alkoxysilyl group (DPE-SiOEt) was synthesized. It wa...
1,1-Diphenylethylenene (DPE) was copolymerized anionically with styrene to yield well-defined altern...
In Chapter 1-3, properties and applications of block copolymers, synthetic methods especially living...
The sulfinyl precursor route for the synthesis of poly(p-phenylene vinylene) (PPV) materials via an ...
Amphiphilic copolymers have received significant attention in the last thirty years due to their exc...
Block copolymers containing both conducting and insulating segments are of interest due to their enh...
A method for optimization of monomer feed compn. to obtain the most accurate reactivity ratios was d...
To explore the potential of myrcene (Myr) as a bio-based monoterpene comonomer for styrenic copolyme...
Designing and tuning a copolymerization process to obtain specific material properties is still fund...