Enhanced antibactericidal function of W4+-doped titania-coated nickel ferrite composite nanoparticles: A biomaterial system

Acta Biomaterialia

Volumn 4, Issue 2, 2008, Pages 273-283

  Sunkara, B K ^a   Misra, R D K ^a  

^a University of Louisiana at Lafayette   (United States)

Author keywords

Antimicrobial function; Composite nanoparticles

Indexed keywords

ENERGY GAP; FERRITE; MICROORGANISMS; NANOMAGNETICS; NANOPARTICLES; SYNTHESIS (CHEMICAL); TITANIUM DIOXIDE;

ANTI-MICROBIAL ACTIVITY; ANTIMICROBIAL FUNCTIONS; COMPOSITE NANOPARTICLES; DOPED TITANIA; FERRITE COMPOSITES; NICKEL FERRITE; NICKEL FERRITE NANOPARTICLE; REVERSEMICELLE; SYNTHESISED; TITANIA;

COMPOSITE MATERIALS;

BIOMATERIAL; FERRITE; NANOPARTICLE; NICKEL; TITANIUM;

ARTICLE; BACTERICIDAL ACTIVITY; BACTERIUM CULTURE; CATALYST; COMPOSITE MATERIAL; CONTROLLED STUDY; ELECTRON; ENERGY; ESCHERICHIA COLI; HYDROLYSIS; INHIBITION KINETICS; MAGNETIC FIELD; NONHUMAN; PRIORITY JOURNAL; SYNTHESIS;

EID: 38949141527     PISSN: 17427061     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.actbio.2007.07.002     Document Type: Article

References (45)

1. In: Ollis D.F., and AI-Ekabi H. (Eds). Photocatalytic purification and treatment of water and air (1993), Elsevier, Amsterdam
2. Mills A., Davis R.H., and Worsley D. Chem Soc Rev 22 (1993) 417
3. Heller A. Acc Chem Res 28 (1995) 503
4. Fujishima A., and Honda K. Nature 238 (1972) 37
5. Fox M.A., and Dulay M.T. Chem Rev 93 (1993) 341
6. Hoffmann M.R., Martin S.T., Choi W., and Bahnemann D.W. Chem Rev 95 (1995) 69
7. Lachheb H., Puzenat E., Houas A., and Ksibi M. Appl Catal B: Environ 39 (2002) 75
8. Mills A., and Le Hunte S. J Photochem Photobiol A: Chem 108 (1997) 1
9. Adachi M., Murata Y., Okada I., and Yoshikawa S. J Electrochem Soc 150 (2003) G488
10. Maness P.C., Smolinski S., Blake D.M., Wolfrum Z.H.E.J., and Jacoby W.A. Appl Environ Microbiol 65 (1999) 4094
11. Rincon A.G., Pulgarin C., Adler N., and Peringer P. J Photochem Photobiol A: Chem 139 (2001) 233
12. Sunada K., Watanabe T., and Hashimoto K. J Photochem Photobiol A: Chem 156 (2003) 227
13. Soria J., Conesa J.C., Augugliaro V., Palmisano L., Schiavello M., and Sclafani A. J Phys Chem 95 (1991) 274
14. Navio J.A., Marchena F.J., Roncel M., and Del la Rosa M.A. J Photochem Photobiol A: Chem 55 (1991) 319
15. Palmisano L., Augugliaro V., Sclafani A., and Schiavello M. J Phys Chem 92 (1988) 6710
16. Borgarello E., Kiwi J., Gratzel M., Pelizzetti E., and Visca M. J Am Chem Soc 104 (1982) 2996
17. Mu W., Herrmann J.M., and Pichat P. Catal Lett 3 (1989) 73
18. Luo Z., and Gao Q.H. J Photochem Photobiol A: Chem 63 (1992) 367
19. Gratzel M., and Howe R.F. J Phys Chem 94 (1990) 2566
20. Wang Y., Cheng H., Zhang L., Hao Y., Ma J., Xu B., et al. J Mol Catal A: Chem 151 (2000) 205
21. Rana S., Rawat J., and Misra R.D.K. Acta Biomater 1 (2005) 691
22. Rana S., Srivastava R.S., Sorensson M.M., and Misra R.D.K. Mater Sci Eng B 119 (2005) 144
23. Misra R.D.K., Gubbala S., Kale A., and Egelhoff W.F. Mater Sci Eng B 111 (2004) 164
24. Gubbala S., Nathani H., Koizol K., and Misra R.D.K. Physica B 348 (2004) 317
25. X-ray powder JCPDS diffraction files (a) 03.0875, nickel ferrite, (b) 01.0562, anatase titania, (c) tungsten oxide.
26. Martinez B., Obradors X., Balcells L., and Rouanet A. Phys Rev Lett 80 (1998) 181
27. Riley D.P., and Shumate R.E. J Am Chem Soc 106 (1984) 3179
28. Wang C.-Y., Bottcher C., Bahnemann D.W., and Dohrmann J.K. J Mater Chem 13 (2003) 2322
29. Choi W.Y., Termin A., and Hoffmann M.R. J Phys Chem 98 (1994) 13669
30. Gratzel M., and Howe R.F. J Phys Chem 94 (1990) 2566
31. Chen F., Xie Y., Zhao J., and Lu G. Chemosphere 24 (2001) 1159
32. Marci G., Augugliaro V., Prevot A.B., Baiocchi C., G-Lopez E., Loddo V., et al. Ann Chim 93 (2003) 639
33. Yun C.Y., Moon J., Chung K., Kang M., Shin C.B., Choi K., et al. Water Sci Technol 49 (2004) 177
34. Rana S., Rawat J., Sorensson M.M., and Misra R.D.K. Acta Biomater 2 (2006) 421
35. Shah S.I., Li W., Huang C.P., Jung O., and Ni C. Proc Natl Acad Sci 99 (2002) 6482-6486
36. Do Y.R., Lee W., Dwight k., and Wold A. J Solid State Chem 108 (1994) 198
37. Li W., Wang Y., Lin H., Shah S.I., Huang C.P., Doren D.J., et al. Appl Phys Lett 83 (2003) 4143
38. Kwon Y.T. J Catal 191 (2000) 192
39. Keller V., Berhardt P., and Garin F. J Catal 215 (2003) 219
40. Rana S., Rawat J., Srivastava R.S., and Misra R.D.K. Mater Sci Eng C 27 (2007) 540
41. Harris G.D., Dean V.A., Darwin L.S., and Curtis M.S. Water Res 21 (1987) 687
42. Matsunaga T., Tomoda R., Nakajima T., and Komine T. Appl Environ Microbiol 54 (1988) 1330
43. Matsunaga T., Tomoda R., Nakajima T., and Wake H. FEMS Microbiol Lett 29 (1985) 211
44. Matsunaga T., and Okochi M. Environ Sci Technol 29 (1995) 501
45. Huang Z., Maness P.C., Blake D.M., Wolfrum E.J., Smolinski S.L., and Jacoby W.A. J Photochem Photobiol A: Chem 130 (2000) 163