Skip to main navigation
Skip to search
Skip to main content
University of Birmingham Home
Help & FAQ
Home
Research output
Profiles
Research units
Projects
Activities
Datasets
Equipment
Prizes
Press/Media
Search by expertise, name or affiliation
Bacterial biosynthesis of a calcium phosphate bone-substitute material
AC Thackray, Rachel Sammons, Lynne Macaskie
Dentistry
Biosciences
Research output
:
Contribution to journal
›
Article
19
Citations (Scopus)
Overview
Fingerprint
Fingerprint
Dive into the research topics of 'Bacterial biosynthesis of a calcium phosphate bone-substitute material'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Hydroxyapatite
100%
Phosphate
100%
Glycerol
100%
Bone Substitutes
100%
Bacterial Synthesis
100%
Calcium Phosphate Bone Substitute
100%
Cell-based
66%
Biofilm
66%
Crystallites
33%
Polymeric Materials
33%
Biomineralization
33%
Bioreactor
33%
Resting Cells
33%
Serratia
33%
Polyurethane
33%
Enzyme Function
33%
Micropore
33%
Calcium Phosphate Materials
33%
Phosphate Ion
33%
Available Phosphate
33%
Whitlockite
33%
Nanophase
33%
Phosphate Layer
33%
Calcium Phosphate
33%
Titanium Disc
33%
β-tricalcium Phosphate (β-TCP)
33%
Tightly Bound Extracellular Polymeric Substances (TB-EPS)
33%
Scaffold Materials
33%
Hydroxyapatite Crystals
33%
Reticulated Foam
33%
Phosphatase Enzymes
33%
Bone Filler
33%
Macropores
33%
Nano-hydroxyapatite (n-HA)
33%
Material Science
Glycerol
100%
Bone Substitutes
100%
Biofilms
66%
X-Ray Diffraction
33%
Sintering
33%
Titanium
33%
Crystallite
33%
Polymer
33%
Nanocrystalline
33%
Polyurethane
33%
Phosphatase
33%
Chemical Engineering
Hydroxyapatite
100%
Calcium Phosphate
100%
Biochemical Reactor
25%
Polyurethane
25%