Biomedical Engineering Reference
In-Depth Information
Moncada, E., Quijada, R., and Retuert, J. 2007. Nanoparticles prepared by the sol-gel method
and their use in the formation of nanocomposites with polypropylene.
Nanotechnology
18: 335606 (7pp).
Moshfegh, A. Z. 2009. Nanoparticlecatalysts.
Journal of Physics D: Applied Physics
, 42: 233001.
Mukherjee, S., Das, P., and Sen, R. 2006. Towardscommercialproductionofmicrobialsurfactants.
Trends in Biotechnology
, 24: 509-515.
Mulligan, C. N. 2005. Environmental applications for biosurfactants.
Environmental Pollution
,
133: 183-198.
Narayanan, J., Ramji, R., Sahu, H., and Gautam, P. 2010. Synthesis, stabilisation and char-
acterization of rhamnolipid-capped ZnS nanoparticles in aqueous medium.
IET
Nanobiotechnology
, 4: 29-34.
Narayanan, K. B. and Sakthivel, N. 2010. Biological synthesis of metal nanoparticles by
microbes.
Advances in Colloid and Interface Science
, 156: 1-13.
Palanisamy, P. 2008. Biosurfactant mediated synthesis of NiO nanorods.
Materials Letters
,
62: 743-746.
Palanisamy, P. and Raichur, A. M. 2009. Synthesis of spherical NiO nanoparticles through a
novel biosurfactant mediated emulsion technique.
Materials Science and Engineering
C
, 29: 199-204.
Polte, J., Ahner, T. T., Delissen, F., Sokolov, S., Emmerling, F., Thünemann, A. F., and
Kraehnert, R. 2010. Mechanism of gold nanoparticle formation in the classical citrate
synthesis method derived from coupled in situ XANES and SAXS evaluation.
Journal
of American Chemical Society
, 132(4): 1296-1301.
Pradeep, T. and Anshup. 2009. Noble metal nanoparticles for water purification: A critical
review.
Thin Solid Films
, 517: 6441-6478.
Raichur, A. M. 2007. Dispersion of colloidal alumina using a rhamnolipid -biosurfactant.
Journal of Dispersion Science and Technology
, 28: 1272-1277.
Rangarajan, V., Dhanarajan, G., Kumar, R., Sen, R., and Mandal, M. 2012. Time-dependent
dosing of Fe
2+
for improved lipopeptide production by marine
Bacillus megaterium
.
Journal of Chemical Technology Biotechnology
, DOI 10.1002/jctb.3814.
Rao, C. N. R., Kulkarni, G. U., John Thomas, P., Agrawal, V. V., Gautam, U. K., and Ghosh, M.
2003. Nanocrystals of metals, semiconductors and oxides: Novel synthesis and applica-
tions.
Current Science
, 85: 1041-1045.
Raveendran, P., Fu, J., and Wallen, S. L. 2003. Completely “green” synthesis and stabilization
of metal nanoparticles.
Journal of American Chemical Society
, 125: 13940-13941.
Reddy, A, S., Chen, C. Y., Chen, C. C., Jean, J. S., Fan, C. W., Chen, H. R., Wang, J. C., and
Vanita, R. 2009. Synthesis of gold nanoparticles via an environmentally benign route
using a biosurfactant.
Journal of Nanoscience and Nanotechnology
, 9: 6693-6699.
Reddy, A. S., Hao, Y. K., Atla, S. B., Chen, C. Y., Chen, C. C., Shih, R. C., Chang, Y. F.,
Maity, J. P., and Chen, H. J. 2011. Low-temperature synthesis of rose-like ZnO nano-
structures using surfactin and their photocatalytic activity.
Journal of Nanoscience and
Nanotechnology
, 11: 5034-5041.
Rehman, A., Raza, Z. A., Saif-ur-Rehman, Khalid, Z. M., Subramani, C., Rotello, V. M., and
Hussain, I. 2010. Synthesis and use of self-assembled rhamnolipid microtubules as tem-
plates for gold nanoparticles assembly to form gold microstructures.
Journal of Colloid
and Interface Science
, 347: 332-335.
Salata, O. V. 2004. Applications of nanoparticles in biology and medicine.
Journal of
Nanobiotechnology
, 2: 3.
Schmid, G. 1992. Large clusters and colloids. Metals in the embryonic state.
Chemical
Reviews
, 92: 1709.
Schwartzberg, A. M., Olson, T. Y., Talley, C. E., and Zhang, J. Z. 2006. Synthesis, character-
ization, and tunable optical properties of hollow gold nanospheres.
Journal of Physical
Chemistry B
, 110: 19935-19944.
Search WWH ::
Custom Search