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Bifunctional designed peptides induce mineralization and binding to TiO
2
Anna Gitelman,
Hanna Rapaport
Department of Biotechnology Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
16
Scopus citations
Overview
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2
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Keyphrases
Oxides
100%
Calcium Ion
100%
Rutile
100%
Bifunctional
100%
Designer Peptides
100%
Functional Peptides
100%
Titanium Implant
100%
Bone Tissue
50%
Adhesion
50%
Strong Adsorption
50%
Oxide Surfaces
50%
Serine Residues
50%
Surrounding Tissues
50%
Calcium Phosphate
50%
Additional Control
50%
Phosphate Ion
50%
Acidic Amino Acid
50%
Phosphate Mineralization
50%
Native Oxide
50%
Cellular Adherence
50%
Phosphorylated Serine
50%
Material Science
Oxide Compound
100%
Titanium Dioxide
100%
Titanium
66%
Calcium Ion
33%
Oxide Surface
33%
High Performance Liquid Chromatography
33%
Amino Acids
33%
Biochemistry, Genetics and Molecular Biology
Mineralization
100%
Surface Property
20%
Serine
20%
High-Performance Liquid Chromatography
20%
Adsorption
20%
Amino Acids
20%
Calcium Phosphate
20%
Calcium Ion
20%