Skip to main navigation
Skip to search
Skip to main content
Illinois Experts Home
LOGIN & Help
Link opens in a new tab
Search content at Illinois Experts
Home
Profiles
Research units
Research & Scholarship
Datasets
Honors
Press/Media
Activities
Designing alginate hydrogels to maintain viability of immobilized cells
Hyun Joon Kong
, Molly K. Smith
, David J. Mooney
Research output
:
Contribution to journal
›
Article
›
peer-review
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Designing alginate hydrogels to maintain viability of immobilized cells'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Cell Viability
100%
Alginate
100%
Alginate Hydrogel
100%
Immobilized Cells
100%
Self-crosslinking
66%
Polymer Chain
33%
Copolymer
33%
Irradiation
33%
Viscosity
33%
High Molecular Weight Polymer
33%
Low Molecular Weight
33%
High Shear Stress
33%
Material Design
33%
Cross-linked
33%
Preparation Method
33%
Hydrogel-forming
33%
Block Copolymer
33%
Gel-forming Ability
33%
High Viscosity
33%
Design Approach
33%
Gel Preparation
33%
Solid Concentration
33%
Polymer Hydrogel
33%
High Elastic Modulus
33%
Gblocks
33%
Low Shear Viscosity
33%
Transport Vehicle
33%
Guluronic Acid
33%
Immobilization Matrix
33%
Harmful Effects
33%
Engineering
Hydrogel
100%
Molecular Weight
100%
Alginate
100%
Molecular Mass
75%
Polymer Chain
25%
Fluid Viscosity
25%
Shear Viscosity
25%
Model System
25%
Shear Force
25%
Forming Ability
25%
Solid Concentration
25%
Harmful Effect
25%
Modulus of Elasticity
25%
Chemical Engineering
Hydrogel
100%
Alginate
100%
Copolymer
25%
Block Copolymer
25%
Material Science
Hydrogel
100%
Elastic Moduli
33%
Copolymer
33%
Block Copolymer
33%
Materials Design
33%