Pengaruh Surfaktan Biner Cetil Trimetil Amonium Bromida (CTAB)- Hexametilen Triamin (HMT) pada Pembentukan Perak Nanorods menggunakan Katalis Natrium Hidroksida

Atiek Rostika Noviyanti, Iwan Hastiawan, Akrajas Ali Umar, Diana Rakhmawaty Eddy, Gani Abdilah


Nanoparticles have different physical properties and more interesting than that of bulk material. Nanoparticles are highly preferred for applications in various technologies as a catalyst, the raw material of electronic components, and as an antimicrobial agent. The aim of the research is synthesize of silver nanorods.  The effect of a binary surfactant CTAB-HMT on the morphology and homogeneity were investigated using UV/Vis spectrophotometer, TEM, and XRD. Base on the UV/Vis spectra and TEM morphology, silver nanoparticles have two types, spherical and rods shapes.  The best product of nanorods was obtained  at the composition of CTAB 0.15 M : HMT 0.15 M. The structure of nanorods obtained were face center cubic (fcc).


CTAB; FCC; HMT; silver nanorods

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Abdullah, M., Virgus ,Y., Nirmin., Khairurrijal. 2008 . Review: Sintesis Nanomaterial . Jurnal Nanosains & Nanoteknologi. 1: 2.

Burrell RE, Heggers JP, Davis GJ, Wright JB. 1999. Review Efficacy of silvercoated dressings as bacterial barriers in a rodent burn sepsis model. Wounds. 11:64-71.

Brioude, A., X.C. Jiang, M.P. Pileni. 2005.Optical Properties of Silver Nanorods: DDA Simulation Supported by Experiments. Journal Physics Chemistry B 109: 13138–13142.

Cozzoli., P.D, R. Comparelli., E.Fanizza., M.L. Curri., A.Agostiano., D. Laub. 2004 . Photocatalytic Synthesis of Silver Nanoparticles Stabilized by TiO2 Nanorods : a Semiconductor/ Metal Nanocomposite in Homogenous Nonpolar Solution. J. Am. Chem. Soc. 126: 3868-3879.

Elechiguerra, J.L., Burt, J.L., Morones, J.R., Camacho-Bragado, A., Gao, X., Lara, H.H., Yacaman, M.J. 2005. Interaction of silver nanoparticles with HIV-1. J. Nanobiotechnol., 29 (3): 6.

Gong, L., Li H., Wang, k., Hu j, Tan W. 2007. Preparation and Antibacterial activity of Fe3O4 Ag Nanoparticle. Nanotechnology, 18: 604-11.

Moores, A., Goettmann, F. 2006. The plasmon band in noble metal nanoparticles: An introduction to theory and applications, New J. Chem., 30:1121-1132.

Percival, S.L., Bowler, P.G., Dolman, J. 2007. Antimicrobial activity of silver-containing dressings on wound microorganisms using an in vitro biofilm model. Int. Wound. J. 4: 186-191.

Wijnhoven, S.W.P., Peijinenburg, W.J.G.M., Herberts, C.A., Hagens, W.I., Oomen, A.G., Heugens, E.H.W., Roszek, B., Bisschops. 2009. Nanosilver : A Review of Available data and Knowledge Gaps in Human and Environmental Risk Assessment. Nanotoxicology .3 (2): 109-138.



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