Nanodimensional and Nanocrystalline Calcium Orthophosphates - Calcium Orthophosphates: Applications in Nature, Biology and Medicine

Biomedical Engineering Reference

In-Depth Information

48. Cacciotti, I., Bianco, A., Lombardi, M., and Montanaro, L. (2009) Mg-

substituted hydroxyapatite nanopowders: synthesis, thermal stability

and sintering behaviour,

, 2969-2978.

49. Bianco, A., Cacciotti, I., Lombardi, M., and Montanaro, L. (2009) Si-

substituted hydroxyapatite nanopowders: synthesis, thermal stability

and sinterability,

J. Eur. Ceram. Soc.

,

29

, 345-354.

50. Capuccini, C., Torricelli, P., Boanini, E., Gazzano, M., Giardino, R., and

Bigi, A. (2009) Interaction of Sr-doped hydroxyapatite nanocrystals

with osteoclast and osteoblast-like cells,

Mater. Res. Bull.,

44

J. Biomed. Mater. Res. A

,

89A

,

594-600.

51. Hou, C. H., Chen, C. W., Hou, S. M., Li, Y. T., and Lin, F. H. (2009) The

fabrication and characterization of dicalcium phosphate dihydrate-

modified magnetic nanoparticles and their performance in

hyperthermia processes

, 4700-4707.

52. Hanifi, A., Fathi, M. H., Sadeghi, H. M. M., and Varshosaz, J. (2010) Mg 2+

substituted calcium phosphate nano particles synthesis for non viral

gene delivery application,

in vitro

,

Biomaterials

,

30

J. Mater. Sci. Mater. Med.

,

21

, 2393-2401.

53. Li, W., and Gao, L. (2003) Fabrication of Hap-ZrO

(3Y) nano-composite

2

, 937-940.

54. Wang, L., Nemoto, R., and Senna, M. (2002) Microstructure and chemical

states of hydroxyapatite/silk fibroin nanocomposites synthesized via

a wet-mechanochemical route,

by SPS,

Biomaterials

,

24

, 535-540.

55. Nemoto, R., Wang, L., Ikoma, T., Tanaka, J., and Senna, M. (2004)

Preferential alignment of hydroxyapatite crystallites in nanocomposites

with chemically disintegrated silk fibroin,

J. Nanopart. Res.

,

4

J. Nanopart. Res.

,

6

, 259-

265.

56. Fang, L. M., Leng, Y., and Gao, P. (2006) Processing and mechanical

properties of HA/UHMWPE nanocomposites,

Biomaterials

,

27

, 3701-

3707.

57. Sugawara, A., Yamane, S., and Akiyoshi, K. (2006) Nanogel-templated

mineralization: polymer-calcium phosphate hybrid nanomaterials.

Macromol. Rapid Commun.

, 441-446.

58. Pushpakanth, S., Srinivasan, B., Sreedhar, B., and Sastry, T.P. (2008) An

in situ

,

27

approach to prepare nanorods of titania-hydroxyapatite (TiO

-

2

HAp) nanocomposite by microwave hydrothermal technique,

Mater.

, 492-498.

59. Chang, M. C., Ko, C. C., and Douglas, W. H. (2003) Preparation of

hydroxyapatite-gelatin nanocomposite,

Chem. Phys.

,

107

Biomaterials

,

24

, 2853-2862.

Calcium Orthophosphates: Applications in Nature, Biology and Medicine

Search WWH ::

Custom Search

Home