Surface characterization of hydroxyapatite: potentiometric titrations coupled with solubility measurements.
暂无分享,去创建一个
[1] N. Spanos,et al. Physicochemical characterization of variously packed porous plugs of hydroxyapatite: streaming potential coupled with conductivity measurements. , 2006, Langmuir : the ACS journal of surfaces and colloids.
[2] J. Arends,et al. HPO42− Content in enamel and artificial carious lesions , 1975, Calcified Tissue Research.
[3] W. Forsling,et al. Characterisation of the protolytic properties of synthetic carbonate free fluorapatite. , 2005, Journal of colloid and interface science.
[4] Robert M. Smith,et al. NIST Critically Selected Stability Constants of Metal Complexes Database , 2004 .
[5] J. Vakros,et al. Potentiometric Mass Titrations: Experimental and Theoretical Establishment of a New Technique for Determining the Point of Zero Charge (PZC) of Metal (Hydr)Oxides , 2003 .
[6] D. Uskoković,et al. Surface Properties of HAp Particles Obtained by Hydrothermal Decomposition of Urea and Calcium-EDTA Chelates , 2002 .
[7] J. Vakros,et al. Potentiometric mass titrations: a quick scan for determining the point of zero charge. , 2002, Chemical communications.
[8] E. Giffaut,et al. Surface characterization of synthetic and mineral carbonate fluoroapatites. , 2002, Journal of colloid and interface science.
[9] O. Pokrovsky,et al. Surface speciation models of calcite and dolomite/aqueous solution interfaces and their spectroscopic evaluation , 2000 .
[10] P. Schindler,et al. Surface Complexation of Calcium Minerals in Aqueous Solution. , 1991, Journal of colloid and interface science.
[11] O. Pokrovsky,et al. Dolomite surface speciation and reactivity in aquatic systems , 1999 .
[12] J. Arey,et al. Immobilization of Uranium in Contaminated Sediments by Hydroxyapatite Addition. , 1999, Environmental science & technology.
[13] W. Bonfield,et al. Carbonate substitution in precipitated hydroxyapatite: an investigation into the effects of reaction temperature and bicarbonate ion concentration. , 1998, Journal of biomedical materials research.
[14] Z. Amjad. Calcium Phosphates in Biological and Industrial Systems , 1997 .
[15] J. Conca,et al. Effects of pH on Heavy Metal Sorption on Mineral Apatite , 1997 .
[16] H. Naramoto,et al. Sorption Mechanism of Europium by Apatite Using Rutherford Backscattering Spectroscopy and Resonant Nuclear Reaction Analysis , 1997 .
[17] F. Schwartz,et al. Sorption of zn2+ and cd2+ on hydroxyapatite surfaces. , 1994, Environmental science & technology.
[18] L. Charlet,et al. A surface complexation model of the carbonate mineral-aqueous solution interface , 1993 .
[19] J. Featherstone,et al. An FTIR study of carbonate in synthetic apatites , 1992 .
[20] G. Marx,et al. Immobilization of Heavy Metals by Hydroxylapatite , 1992 .
[21] P. Schindler,et al. Surface Reactions in Aqueous Metal Sulfide Systems , 1991 .
[22] Johannes Lyklema,et al. Fundamentals of Interface and Colloid Science , 1991 .
[23] J. A. Schwarz,et al. Estimation of the point of zero charge of simple oxides by mass titration , 1989 .
[24] C. H. Rochester,et al. Adsorption from solution at the solid/liquid interface , 1983 .
[25] J. Osborn,et al. The material science of calcium phosphate ceramics. , 1980, Biomaterials.
[26] D. Fuerstenau,et al. Effect of ionic surfactants on the electrophoretic mobility of hydroxyapatite , 1980 .
[27] D. Fuerstenau,et al. Interfacial properties and equilibria in the apatite-aqueous solution system , 1979 .
[28] J. Quirk,et al. The point of zero charge of hydroxyapatite and fluorapatite in aqueous solutions , 1973 .
[29] A. J. Perkins,et al. Developments in Applied Spectroscopy , 1972 .
[30] F. Saleeb,et al. Surface properties of alkaline earth apatites , 1972 .
[31] J. Quirk,et al. Radioisotope determination of the surface concentrations of calcium and phosphorus on hydroxylapatite in aqueous solution , 1972 .
[32] W. Hall,et al. Hydrogen held by solids. XII. Hydroxyapatite catalysts , 1967 .
[33] V. I Klassen,et al. An introduction to the theory of flotation , 1963 .