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

  • Atiek Rostika Noviyanti Laboratorium Kimia Fisika dan Anorganik, Departemen Kimia Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Padjajaran
    (ID)
  • Iwan Hastiawan
  • Akrajas Ali Umar
  • Diana Rakhmawaty Eddy
  • Gani Abdilah

Abstract

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).

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References

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.

Published
2017-06-30
How to Cite
Noviyanti, A. R., Hastiawan, I., Umar, A. A., Eddy, D. R., & Abdilah, G. (2017). Pengaruh Surfaktan Biner Cetil Trimetil Amonium Bromida (CTAB)- Hexametilen Triamin (HMT) pada Pembentukan Perak Nanorods menggunakan Katalis Natrium Hidroksida. Al-Kimia, 5(1), 1-11. https://doi.org/10.24252/al-kimia.v5i1.2843
Section
Article
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