Nanocrystals of magnesium and fluoride substituted hydroxyapatite

scholarly article by Enrico Bertoni et al published October 1998 in Journal of Inorganic Biochemistry

Nanocrystals of magnesium and fluoride substituted hydroxyapatite is …
instance of (P31):
scholarly articleQ13442814

External links are
P356DOI10.1016/S0162-0134(98)10058-2
P698PubMed publication ID9861727

P50authorAdriana BigiQ51438303
Silvia PanzavoltaQ54170173
P2093author name stringM Gandolfi
A Bigi
N Roveri
Norberto Roveri
S Panzavolta
Gianna Cojazzi
E Bertoni
G Cojazzi
Enrico Bertoni
Massimo Gandolfi
P2860cites workInnovative materials processing strategies: a biomimetic approachQ29301178
Organoapatites: materials for artificial bone. I. Synthesis and microstructureQ30982046
Nanoapatite and organoapatite implants in bone: histology and ultrastructure of the interfaceQ36699907
Organoapatites: materials for artificial bone. II. Hardening reactions and propertiesQ36767928
Adhesion of carboxylate cements to hydroxyapatite. III. Adsorption of poly(alkenoic acids).Q45472495
Normal maturational changes in bone matrix, mineral, and crystal size in the rat.Q47301223
Magnesium-containing carbonate apatitesQ57224651
Structural and chemical characterization of inorganic deposits in calcified human mitral valveQ57227107
Nano-apatite/polymer composites: mechanical and physicochemical characteristicsQ63989202
Rietveld structure refinements of calcium hydroxylapatite containing magnesiumQ63991127
Magnesium influence on hydroxyapatite crystallizationQ63991129
The role of magnesium on the structure of biological apatitesQ63991133
Chemistry and structure of precipitated hydroxyapatitesQ76971881
Preparation and characterization of fluoride-substituted apatitesQ80529398
Ceramic thin-film formation on functionalized interfaces through biomimetic processingQ81015649
P433issue1-2
P407language of work or nameEnglishQ1860
P921main subjectmagnesiumQ660
P304page(s)29-35
P577publication date1998-10-01
P1433published inJournal of Inorganic BiochemistryQ3186919
P1476titleNanocrystals of magnesium and fluoride substituted hydroxyapatite
P478volume72

Reverse relations

cites work (P2860)
Q61757824Cationic and Anionic Substitutions in Hydroxyapatite
Q81718657Cement from magnesium substituted hydroxyapatite
Q38806480DENTAL ENAMEL FORMATION AND IMPLICATIONS FOR ORAL HEALTH AND DISEASE.
Q60453193EDTA and NTA Effectively Tune the Mineralization of Calcium Phosphate from Bulk Aqueous Solution.
Q57011001Effect of sodium polyacrylate on the hydrolysis of octacalcium phosphate
Q33669226Elemental vs. phase composition of breast calcifications
Q40521355Influence of fluorapatite minor additions on behavior of hydroxyapatite ceramics
Q33194330Lack of OH in nanocrystalline apatite as a function of degree of atomic order: implications for bone and biomaterials.
Q44084865Matrix Gla protein binding to hydroxyapatite is dependent on the ionic environment: calcium enhances binding affinity but phosphate and magnesium decrease affinity
Q50959036Mechanical properties of bovine hydroxyapatite (BHA) composites doped with SiO2, MgO, Al2O3, and ZrO2.
Q44062465Polymer--calcium phosphate cement composites for bone substitutes
Q34248773Preparation and Properties of Nanoparticles of Calcium Phosphates With Various Ca/P Ratios
Q36868241Properties of Nanostructured Hydroxyapatite Prepared by a Spray Drying Technique
Q61827110Resorbable biomaterials as bone graft substitutes
Q42792122STEM and EDXS characterisation of physico-chemical reactions at the periphery of sol-gel derived Zn-substituted hydroxyapatites during interactions with biological fluids.
Q80706310Structural characterization of zinc-substituted hydroxyapatite prepared by hydrothermal method
Q57218270Substituted hydroxyapatites for bone repair
Q63991117Synthesis and hydrolysis of octacalcium phosphate: effect of sodium polyacrylate
Q51071703The role of ammonium citrate washing on the characteristics of mechanochemical-hydrothermal derived magnesium-containing apatites.
Q35030032Understanding in vivo response and mechanical property variation in MgO, SrO and SiO₂ doped β-TCP.

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