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n-Alkyl fatty acid-modified microgels: Ion permeation as a function of chain length
Mary L. Kraft
,
Jeffrey S. Moore
Chemical and Biomolecular Engineering
Chemistry
Micro and Nanotechnology Lab
Beckman Institute for Advanced Science and Technology
Materials Research Lab
Materials Science and Engineering
Carl R. Woese Institute for Genomic Biology
Office of the Vice Chancellor for Research and Innovation
Center for Advanced Study
Biomedical and Translational Sciences
Center for Social & Behavioral Science
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Keyphrases
Acid Modified
100%
Alkyl
100%
Alkyl Chain Length
20%
Barrier Properties
20%
Buffer Solution
20%
Chain Length
100%
Fatty Acid Chain
20%
Fatty Acid Chloride
20%
Fatty Acids
100%
Half-life Value
20%
Hydrogel Substrates
20%
In-situ Process
20%
Ion Gradient
20%
Ion Penetration
20%
Ion Permeation
100%
Lipophilic Dye
20%
Long Half-life
20%
Microfluidic System
20%
Microgels
100%
PH-sensitive Hydrogel
20%
Pinhole Defect
20%
Engineering
Barrier Property
50%
Defects
50%
Hydrogel
100%
Ion Penetration
50%
Microgels
100%
Material Science
Buffer Solution
50%
Hydrogel
100%
Chemical Engineering
Fatty Acids
100%
Hydrogel
28%
Pharmacology, Toxicology and Pharmaceutical Science
Buffer
14%
Fatty Acid
100%