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Enhancing strength in mineralized collagen
Fabio Nudelman
*
, Roland Kröger
*
Corresponding author for this work
School of Chemistry
EaStCHEM
Centre for Engineering Biology
Research output
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Article
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peer-review
Overview
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Dive into the research topics of 'Enhancing strength in mineralized collagen'. Together they form a unique fingerprint.
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Weight
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Physics
Biominerals
100%
Bone
100%
Collagens
100%
Hydroxylapatite
50%
Mineralized Tissue
50%
Minerals
33%
Biopolymer
33%
Foci
16%
Properties of Materials
16%
Organism
16%
Growth
16%
Detection
16%
Protection
16%
Phosphate
16%
Mechanical Shock
16%
Ear
16%
Concrete
16%
Calcium
16%
Fracture Strength
16%
Biochemistry, Genetics and Molecular Biology
Strength
100%
Collagen
100%
Mineralization
16%
Calcium Phosphate
16%
Acceleration
16%
Tension
16%
Biopolymer
16%
Organisms
16%
Biological Functions
16%
Length
16%
Growth
16%
Mastication
16%
Material Science
Mechanical Strength
100%
Collagen
100%
Mineral
33%
Nanocrystalline
33%
Prestressed Concrete
16%
Fracture Toughness
16%
Materials Property
16%
Calcium
16%