Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/infrared-determination-of-the-degree-of-substitution-of-hydroxyl-by-0eIajof1Ua
References (22)
-
(1972)
Contribution ~ l'6tude de la carbonatation des apatites -
S. Kuroda, B. Fowler (1984)
Compositional, structural, and phase changes inin vitro laser-irradiated human tooth enamelCalcified Tissue International, 36
-
R. Young, Holcomb Dw (1982)
Variability of hydroxyapatite preparations.Calcified tissue international, 34 Suppl 2
-
(1961)
The infrared spectrum of the carbonate ion in carbonate-conta in ing apati tes (abstract -
(1984)
Contribution ~ l ' r tude des apatites carbonatres de type B. Th~se, l 'Institut -
(1982)
Contribution a l ' r tude du comportement et de la synth~se des apatites carbonatdes sous haute pression. Th~se, l 'Institut -
(1982)
Contribution a l ' r tude du comportement et de la synth ~ se des apatites carbonatdes sous haute pression -
J. Elliott (1964)
The crystallographic structure of dental enamel and related apatites -
W. Emerson, E. Fischer (1962)
The infra-red absorption spectra of carbonate in calcified tissuesArchives of Oral Biology, 7
-
D. Holcomb, R. Young (2006)
Thermal decomposition of human tooth enamelCalcified Tissue International, 31
-
J. Russell (1974)
Instrumentation and Techniques -
JC Elliott (1965)
Tooth enamel -
(1972)
Contribution fi l ' 6 tude de la carbonation des apatites . Parts Ii and III -
(1965)
The interpretation of the infrared absorption spectra of some carbonate-containing apatites. In: Stack MV, Fearnhead RW (eds) Tooth enamel -
(1972)
Contribution ~ l ' 6 tude de la carbonatation des apatites . Part I -
R. Scheib, Raymond Thrasher, J. Lehr (1981)
Chemical Composition Determination Of Francolite Apatites By Fourier Transform Infrared (FTIR) Spectroscopy, 0289
-
R. Young, P. Mackie (1980)
Crystallography of human tooth enamel: Initial structure refinementMaterials Research Bulletin, 15
-
(1972)
Contribution fi l '6tude de la carbonation des apatites -
JD Russell (1974)
The infrared spectra of minerals -
R. Young, M. Bartlett, S. Spooner, P. Mackie, G. Bonel (1981)
Reversible high temperature exchange of carbonate and hydroxyl ions in tooth enamel and synthetic hydroxyapatiteJournal of Biological Physics, 9
-
(1972)
Contribution ~t l ' r tude de la carbonation des apatites -
(1974)
Ins t rumenta t ion and techniques. In: Farmer VC (ed) The infrared spectra of minerals
- Publisher
- Springer Journals
- Copyright
- Copyright © 1985 by Springer-Verlag
- Subject
- Life Sciences; Biochemistry, general; Endocrinology; Orthopedics; Cell Biology
- ISSN
- 0171-967X
- eISSN
- 1432-0827
- DOI
- 10.1007/BF02553704
- Publisher site
- See Article on Publisher Site
Abstract
About 11±1% of the carbonate ions in a human tooth enamel specimen (dense fraction, sp. g.>2.95) were found to be in the A-sites, replacing hydroxyl ions. The determination was made with a difference infrared spectrometry technique utilizing both tooth enamel and a reconstituted biological apatite with a known amount of replacement of hydroxyl by carbonate ions.
Journal
Calcified Tissue International – Springer Journals
Published: Jan 9, 2007