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Structure-Activity Relationships in Heparin Binding and Supramolecular Materials
Salla Välimäki
Biohybrid Materials
Department of Bioproducts and Biosystems
Research output
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Thesis
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Dive into the research topics of 'Structure-Activity Relationships in Heparin Binding and Supramolecular Materials'. Together they form a unique fingerprint.
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Chemistry
Supramolecular Material
100%
Heparin
100%
Polymer
41%
Complexation
33%
Protein
25%
Binding Agent
16%
Particle Size
16%
Sensor
16%
Block Copolymer
16%
Halogen
16%
Fluorescent Dye
16%
Macrocycle
16%
Antidote
8%
Procedure
8%
Concentration
8%
Length
8%
Kd
8%
Colloid
8%
Biohybrids
8%
Apoferritin
8%
Fluorescent Probe
8%
Non-Covalent Interactions
8%
Macrocyclic Compound
8%
Molecular Design
8%
Pharmacology, Toxicology and Pharmaceutical Science
Heparin
100%
Structure Activity Relationship
100%
Polymer
50%
Protein
25%
Macrocyclic Compound
25%
Halogen
16%
Biocompatibility
8%
Copolymer
8%
Host
8%
Colloid
8%
Antidote
8%
Non-Covalent Interactions
8%
Apoferritin
8%