[1] Raghunandan D., Borgaonkar P.A., Bendegumble B., Bedre M.D., Bhagawanraju M., Yalagatti M.S., Huh D.S., Abbaraju V.,
Microwave-Assisted Rapid Extracellular Bio-Synthesis of Silver Nanoparticles Using Carom Seed (Trachyspermumcopticum) Extract and in Vitro Studies,
American Journal of Analytical Chemistry, 2(4):475-483 (2011).
[2] Ahmad I., Ahmad F., Pichtel J., "Microbes and Microbial Technology", Springer, ISBN 978-1-4419-7930-8, (2011).
[7] Mohamed R.M., McKinney D.L., Sigmund W.M.,
Enhanced Nanocatalysts,
Materials Science and Engineering R;
73(1):1-13 (2012).
[9] Yan W., Chen B., Mahurin S.M., Schwartz V., Mullins D.R., Lupini A.R., Pennycook S.J., Dai S., and Overbury S.H.,
Preparation and Comparison of Supported Gold Nano-Catalysts on Anatase, Brookite, Rutile, and P25 Polymorphs of TiO2 for Catalytic Oxidation of CO,
The Journal of Physical Chemistry B;
109(21):10676-10685 (2009).
[14] Yuan W., Jiang G., Che J., Qi X., Xu R., Chang M.W., Chen Y., Lim S.Y., Dai J., Chan-Park M.B.,
Deposition of Silver Nanoparticles on Multiwalled Carbon Nanotubes Grafted with Hyperbranched Poly (amidoamine) and Their Antimicrobial Effects,
The Journal of Physical Chemistry C;
112:18754–18759 (2008).
[34] Montgomery D.C., "Design and analysis of experiments", John Wily& Sons, INC, 6th Edition, New York (2005).