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Morphology of sol-gel derived nano-coated coralline hydroxyapatite
B. Ben-Nissan, A. Milev,
R. Vago
Research output
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Contribution to journal
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Article
›
peer-review
129
Scopus citations
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Dive into the research topics of 'Morphology of sol-gel derived nano-coated coralline hydroxyapatite'. Together they form a unique fingerprint.
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Keyphrases
Application Route
33%
Biaxial Strength
33%
Bone Graft
33%
Bone Substitutes
33%
Complete Conversion
33%
Conversion Process
33%
Coral
100%
Coralline Hydroxyapatite
100%
Dissolution Rate
33%
Double Conversion Technique
33%
Double Therapy
33%
Durability Improvement
33%
High Strength
33%
Hydroxyapatite
66%
Hydroxyapatite Structure
33%
Large Pore
33%
Load-bearing
33%
Micro-nano
33%
Micropore
33%
Monophasic
33%
Nanocoating
33%
Nanopore
66%
Physiological Environment
33%
Sol-gel
100%
Strength Requirement
33%
Structural Strength
33%
Trabecular Bone
33%
Engineering
Conversion Process
50%
Dissolution Rate
50%
Grafts
100%
Limitations
50%
Micropore
50%
Nanocoating
50%
Nanopore
100%
Strength Requirement
50%
Structural Strength
50%
Material Science
Mechanical Strength
100%
Nano-Coating
20%
Nanopore
40%
Sol-Gel
100%
Earth and Planetary Sciences
Hydroxylapatite
100%