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9 in total

1. [THE CARBONATE HYDROXYAPATITES AND THE CARBONATE OF BONES AND TEETH STUDIED BY INFRARED SPECTROPHOTOMETRY].

Authors: H HERMAN; M J DALLEMAGNE
Journal: Bull Soc Chim Biol (Paris) Date: 1964-05-05

2. Crystallographic studies of calcium carbonate phosphate.

Authors: O R TRAUTZ
Journal: Ann N Y Acad Sci Date: 1960-03-29 Impact factor: 5.691

Review 3. [The mineral substance of bones].

Authors: E Hayek
Journal: Klin Wochenschr Date: 1967-09-01

4. The chemical anatomy of bone. I. A comparative study of bone composition in sixteen vertebrates.

Authors: R M Biltz; E D Pellegrino
Journal: J Bone Joint Surg Am Date: 1969-04 Impact factor: 5.284

5. Bone carbonate and the Ca to P molar ratio.

Authors: E D Pellegrino; R M Biltz
Journal: Nature Date: 1968-09-21 Impact factor: 49.962

6. Determination of hydroxyl content of calcified tissue mineral.

Authors: G T Vatassery; W D Armstrong; L Singer
Journal: Calcif Tissue Res Date: 1970

7. Solubility behavior of the mineral substance of bone, tooth and shell.

Authors: R M Biltz; E D Pellegrino; S T Miller; A Moffitt
Journal: Clin Orthop Relat Res Date: 1970 Impact factor: 4.176

8. Investigation of the composition and crystal structure of bone salt by derivatography and infrared spectrophotometry.

Authors: F Paulik; K Eröss; J Paulik; T Farkas; T Vizkelety
Journal: Hoppe Seylers Z Physiol Chem Date: 1969-04

9. The physical state of bone carbonate. A comparative infra-red study in several mineralized tissues.

Authors: J D Baxter; R M Biltz; E D Pellegrino
Journal: Yale J Biol Med Date: 1966-04

9 in total

11 in total

1. Surface design of orthopaedic drug delivery implants: X-ray photoelectron spectroscopy of bone-derived apatites.

Authors: A L Litvin
Journal: J Mater Sci Mater Med Date: 2000-02 Impact factor: 3.896

2. Hydroxyl content of solution-precipitated calcium phosphates.

Authors: J L Meyer
Journal: Calcif Tissue Int Date: 1979-04-17 Impact factor: 4.333

3. The carbonate environment in bone mineral: a resolution-enhanced Fourier Transform Infrared Spectroscopy Study.

Authors: C Rey; B Collins; T Goehl; I R Dickson; M J Glimcher
Journal: Calcif Tissue Int Date: 1989-09 Impact factor: 4.333

4. Hydroxyapatite: mechanism of formation and properties.

Authors: N C Blumenthal; A S Posner
Journal: Calcif Tissue Res Date: 1973-10-23

5. An x-ray study of the paracrystalline nature of bone apatite.

Authors: E J Wheeler; D Lewis
Journal: Calcif Tissue Res Date: 1977-12-29

6. Resolution-enhanced Fourier transform infrared spectroscopy study of the environment of phosphate ions in the early deposits of a solid phase of calcium-phosphate in bone and enamel, and their evolution with age. I: Investigations in the upsilon 4 PO4 domain.

Authors: C Rey; M Shimizu; B Collins; M J Glimcher
Journal: Calcif Tissue Int Date: 1990-06 Impact factor: 4.333

7. Fourier transform infrared spectroscopic study of the carbonate ions in bone mineral during aging.

Authors: C Rey; V Renugopalakrishnan; B Collins; M J Glimcher
Journal: Calcif Tissue Int Date: 1991-10 Impact factor: 4.333

8. A comparison of the physical and chemical differences between cancellous and cortical bovine bone mineral at two ages.

Authors: Liisa T Kuhn; Marc D Grynpas; Christian C Rey; Yaotang Wu; Jerome L Ackerman; Melvin J Glimcher
Journal: Calcif Tissue Int Date: 2008-08-07 Impact factor: 4.333

9. Characterization of very young mineral phases of bone by solid state 31phosphorus magic angle sample spinning nuclear magnetic resonance and X-ray diffraction.

Authors: J E Roberts; L C Bonar; R G Griffin; M J Glimcher
Journal: Calcif Tissue Int Date: 1992-01 Impact factor: 4.333

Review 10. Calcium orthophosphates: occurrence, properties, biomineralization, pathological calcification and biomimetic applications.

Authors: Sergey V Dorozhkin
Journal: Biomatter Date: 2011 Oct-Dec