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Charge-balanced copolymer hydrogels: potential as biomedical materials
Darren Campbell,
Brian Tighe
Chemical Engineering & Applied Chemistry
Aston University
Research output
:
Unpublished contribution to conference
›
Abstract
Overview
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Dive into the research topics of 'Charge-balanced copolymer hydrogels: potential as biomedical materials'. Together they form a unique fingerprint.
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Keyphrases
Anions
10%
Betaine
80%
Biomaterial Applications
10%
Biomedical Materials
100%
Charge Balance
100%
Copolymer
70%
Copolymer Hydrogel
100%
Copolymer Membrane
40%
Dispersive Component
10%
Hydrogel Design
10%
Hydrogel Material
10%
Methacrylic Acid
10%
Molecular Architecture
10%
Monomeric Unit
20%
Polar Components
10%
Polyampholyte
100%
Polyzwitterionic
20%
Polyzwitterions
10%
Protein Absorption
10%
Protein Solution
10%
Scientific Instruments
10%
Surface Energy
10%
Surface Free Energy
10%
UV Absorption
10%
Zwitterion
10%
Material Science
Biomaterial
8%
Biomedical Materials
100%
Copolymer
100%
Hydrogel
100%
Surface (Surface Science)
8%
Surface Energy
8%
Chemical Engineering
Betaine
66%
Copolymer
100%
Free Energy
8%
Hydrogel
100%