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A Novel Method To Prepare Cysteine Capped Cadmium Selenide Nanoparticles

Published online by Cambridge University Press:  01 February 2011

Oluwatobi Samuel Oluwafemi
Affiliation:
[email protected], University of Zululand, Chemistry, Private Bag X1001, kwadlangezwa, 3886, South Africa, +27765110322, +27359026568
Neerish Revaprasadu
Affiliation:
[email protected], University of Zululand, Chemistry, Private Bag X1001, kwadlangezwa, 3886, South Africa
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Abstract

Water dispersable and potentially biocompatible L-cysteine-capped CdSe nanoparticles with a narrow size distribution and blue fluoresence have been synthesized by a facile method without using any additional stabilizer. FTIR study shows that CdSe nanoparticles are capped through mercapto-group of the amino acid cysteine whilst its free amino and carboxylate groups make it amenable to bio-conjugation establishing the possibility of using these as fluorescent biomarkers.

Type
Research Article
Copyright
Copyright © Materials Research Society 2007

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References

REFERENCES

1. Lippens, P.E. and Lannoo, M., Phys. Rev., B 39, 10935 (1989)Google Scholar
2. Rama Krishna, M.V. and Friesner, R.A., J. Chem. Phys., 95, 8309 (1991)Google Scholar
3. Murray, C.B., Kagan, C.R. and Bawendi, M.G., Science, 270, 13335 (1995)Google Scholar
4. Sutherland, A.J., Curr.opin. Solid State Mater.Sci., 6, 365 (2002)Google Scholar
5. Bruchez, M., Moronne, M., Gin, P., Weiss, S. and Alivisatos, A.P., Science, 281, 2013, (1998)Google Scholar
6. Chan, W.C.W. and Nie, S.M., Science, 281, 2016 (1998)Google Scholar
7. Murphy, C.J., Anal. Chem., 74, 520A (2002)Google Scholar
8. Costa-Fernandez, J.M., Pereiro, R. and Sanz-Medel, A., Trends in Analytical Chemistry, 25, 207 (2006)Google Scholar
9. Ozkan, M., DDT, 9, 1065 (2004)Google Scholar
10. Derfus, A.M., Chan, W.C.W. and Bhatia, S.N., Nano.lett.., 4, 11 (2004)Google Scholar
11. Mattoussi, H., J. Am. Chem. Soc., 122, 12142 (2000)Google Scholar
12. Pathak, S., J. Am. Chem. Soc., 123, 4103 (2001)Google Scholar
13. Sapra, S., Nanda, J., Sarma, D.D., Abed El-Al, F. and Hodes, G., Chem.Commun., 2001, 2188 Google Scholar
14. Uvdal, K. and Vikinge, T.P., Langmuir, 17, 2008 (2001)Google Scholar
15. Wang, S. and Du, D., Sensors, 2, 41 (2002)Google Scholar
16. Pankove, J.L., Optical Processes in semiconductors, Dover Publications, New York, 1970.Google Scholar
17. Murray, C.B., Norris, D.J., and Bawendi, M.G., J. Am. Chem. Soc., 115, 8706 (1993)Google Scholar
18. Cullity, B., Handbook of Elements of X-ray Diffraction, 2nd ed., Addison -Wesley, Reading, MA, 1978.Google Scholar