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Zwitterionic and charge-balanced (polyampholyte) copolymer hydrogels
Darren Campbell,
Brian Tighe
Chemical Engineering & Applied Chemistry
Aston University
Research output
:
Unpublished contribution to conference
›
Poster
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Keyphrases
Zwitterion
100%
Polyampholyte
100%
Copolymer Hydrogel
100%
Charge Balance
100%
Copolymer
87%
Polyzwitterions
37%
Dimethylamino
25%
Propyl
25%
Biomaterials
25%
Anions
25%
Surface Energy
25%
Monomeric Unit
25%
Zwitterionic Copolymer
25%
Zwitterionic Monomer
25%
Sulfonic Acid
25%
Methacrylamide
25%
DMAEMA
25%
Dimethyl
12%
Macromolecules
12%
Acrylate
12%
Hydrogel Material
12%
Dimethylaminoethyl Methacrylate
12%
Comonomer
12%
Mechanical Energy
12%
Biomimetic
12%
Antipolyelectrolyte
12%
Ammonium
12%
Cationic Monomer
12%
Mechanical Surface
12%
Energy Properties
12%
Equilibrium Water Content
12%
Pendent Groups
12%
Polyelectrolyte
12%
Biomaterial Applications
12%
Betaine
12%
Zwitterionic Groups
12%
Zwitterionic Compounds
12%
Bioresponsive Materials
12%
Oxygen Permeability
12%
Friction Coefficient
12%
Terpolymer
12%
Neutral Molecules
12%
Material Science
Copolymer
100%
Hydrogel
100%
Biomaterial
27%
Surface Energy
18%
Polymerization
9%
Polyelectrolyte
9%
Coefficient of Friction
9%