An influence of a size and of the size distribution of silver nanoparticles on their surface plasmon resonance

Автор: Kytsya A.R., Reshetnyak Alexandr Vladimirovych, Bazylyak Liliya Igorevna, Hrynda Yuriy Mykolayovych

Журнал: НБИ технологии @nbi-technologies

Рубрика: Социально-экономические инновации

Статья в выпуске: 2 (9), 2013 года.

Бесплатный доступ

On a basis of the comparative analysis of the references data the correlated dependencies between the optical characteristics of aqueous sols of spherical nanoparticles and their diameter have been discovered. As a result, the empirical dependencies between the values of the square of wave frequency in the adsorption maximum of the surface plasmon resonance and average diameter of the nanoparticles were determined as well as between the values of the adsorption band width on a half of its height and silver nanoparticles distribution per size. Proposed dependencies are described by the linear equations with the correlation coefficients 0,97 and 0,84 correspondingly.

Еще

Nanotechnology, silver nanoparticles, aqua sol, surface plasmon resonance, спектры uv/vis, uv/vis spectra

Короткий адрес: https://sciup.org/14968492

IDR: 14968492

Список литературы An influence of a size and of the size distribution of silver nanoparticles on their surface plasmon resonance

  • Turkevich, J. A study of the nucleation and growth processes in the synthesis of colloidal gold/J. Turkevich, P.C. Stevenson, J. Hillier//Discuss. Faraday Soc. -1951. -№ 11. -pp. 55-75
  • Lee, C. Adsorption and Surface-Enhanced Raman of Dyes on Silver and Gold Sols/C. Lee, D. Meisel J.//Phys. Chem. -1982 -86 (17). -P. 3391-3395.
  • Scott, R.W.J. Tin dioxide opals and inverted opals: Near-ideal microstructures for gas sensors/R.W.J. Scott, H. Ye, R.R. Henriquez, R.M. Crooks//Chem. Mater. -2003. -№ 15. -p. 3873.
  • Y. Hou, S. Gao, Carbon-stabilized iron nanoparticles for environmental remediation ignite spontaneously at room temperature. -J. Mater. Chem. № 13, (2003). -p. 1510.
  • A. Sinha, Das S. Kumar, T.V. Vijaya Kumar, V. Rao, P. Ramachandrarao Synthesis of Nanosized Copper Powder by an Aqueous Route//J. Mater. Synth. Proces. № 7, (1999). -p. 373.
  • Sastry M., Patil V., Mayya K.S., Paranjape D.V., Singh P., Sainkar S.R. Organization of polymer-capped platinum colloidal particles at the air-water interface//Thin solid films. 1998. V324. N 2.P. 239-244.
  • Yu.A. Krutyakov, A.A. Kudrinskiy, A.Yu. Olenin, G.V. Lisichkin, Synthesis and properties of silver nanoparticles: advances and prospects//RUSS CHEM REV, 2008, 77 (3), pp. 233-257
  • S.Z. Malynych, J. Phys. Stud. 13 (1), 18011 (2009).
  • S.Z. Malynych, ESTIMATION OF SIZE AND CONCENTRATION OF SILVER NANOPARTICLES IN AQUEOUS SUSPENSIONS FROM EXTINCTION SPECTRAJ//Nano-Electron. Phys. 2010. -V. 2. -№ 4, pp. 5-11
  • D.D. Evanoff, G. Chumanov Synthesis and Optical Properties of Silver Nanoparticles and ArraysChem. Phys. Chem. (2005). № 6, pp. 1221 -1231
  • U. Kreibig, M. Vollmer, Absorption and Scattering of Light by Small Particles Springer-Verlag, New York (1995). -532 p.
  • P.B. Johnson, R.W. Christy Optical constants of the noble metals//Phys. Rev. B. (1972) № 6, pp. 4370-4379.
  • A. Kawabata and R. Kubo, Electronic Properties of Fine Metallic Particles. II. Plasma Resonance Absorption//J. Phys. Soc. Jpn. (1966). № 21, pp. 1765-1772.
  • N.W. Ashcroft, N.D. Mermin Solid State Physics//Saunders College Publishing, Philadelphia (1976). -p. 629.
  • G. Mie Beitrage zur optik truber medien, speziell kolloidaler metallosungen//Ann. Phys. (1908). -№ 3. -pp. 377-445.
  • A. Slistan-Grijalva, R. Herrera-Urbina, J.F. RivasSilva, M. Avalos-Borja, F.F. Castillo-Barraza, A. Posada-Amarillas Classical theoretical characterization of the surface plasmon absorption band for silver spherical nanoparticles suspended in water and ethylene glycol//Physica E, vol. 27, no. 1-2, pp. 104-112, 2005.
  • C.H. Munro, W.E. Smith, M. Garner, J. Clarkson, PEC. White//Ramanscattering, Langmuir, № 11,p. 3712-3720, (1995)
  • L. N. Podliegayeva, D. M. Russakov, S.A. Sozinov, T.V. Morozova, I.L. Shvajko, N.S. Zvidentsova, L.V. Koliesnikova, Viestnik KGU. 2 (38), 91 (2009).
  • Y. Yin, Z. Yu. Li, Z. Zhong, B. Gates, Y. Xia Modifying the Surface Properties of Superparamagnetic Iron Oxide Nanoparticles through A Sol-Gel//J. Mater. Chem. 2002, № 2, pp. 183-186.
  • Y. Sun, Y. Xia Gold and silver nanoparticles: A class of chromophores with colors tunable in the range from 400 to 750 nm//Analyst. (2003). -№ 128, pp. 686-691.
  • A. Baron, J. Bakhracheva, A method for impact strength estimation. -Mechanika. -Kaunas: Technologija, 2007, Vol. 66. -№ 4, p. 31-35.
  • H. Wang, X. Qiao, J. Chen, S. Ding. Preparation of Silver Nanoparticles by Chemical Reduction Method//Colloid Surface A. (2005). -№ 256, pp. 111-115.
  • Y.M. Mohan, K. Lee, T. Premkumar and K.E. Geckeler, Hydrogel networks as nanoreactors: A novel approach to silver nanoparticles for antibacterial applications//Polymer, 2007. -№ 48, p.158-164.
  • X. Li, J. Zhang, W. Xu, H. Jia, X. Wang, B. Yang, B. Zhao, B. Li, Yu. Ozak, Effects of alloying elements and temperature on elastic properties of dilute Ni-base superalloys from first-principles calculations//Langmuir. (2003) Vol. 19, № 10, p. 4285-4291.
  • N. Vigneshwaran, R.P. Nachane, R.H. Balasubramanya, P.V. Varadarajan, Biological synthesis of silver nanoparticles using the fungus//Carbohydr. Res. -2006. -№ 341. p. 2012-2018.
  • S. Shankar, A. Rai, A. Ahmad, M. Sastry, J. Colloid. Interf. Sci. 275, 496 (2004).
  • S. Chandran, M. Chaudhary, R. Pasricha, A. Ahmad, M. Sastry, Synthesis of Gold Nanotriangles and Silver Nanoparticles Using Aloevera Plant Extract//Biotechnol. Prog. 2006. № 22, p. 577-583.
  • H. Hiramatsu, F. Osterloh, A Simple Large-Scale Synthesis of Nearly Monodisperse Gold and Silver Nanoparticles with Adjustable Sizes and with Exchangeable Surfactants//Chem. Mater. -2004. -Vol. 16, № 13, p. 2509-2511.
  • J.Y. Song, B. Kim, Centralized modularity of N-linked glycosylation pathways in mammalian cells//Bioproc. Biosyst. Eng. -2009. -№ 32, p. 79-107.
  • L.F. Zhu, X.S. Shen, Z.Y. Zeng, H. Wang, H. Zhang, H.Y. Chen: “Induced Coiling Action: Exploring the Intrinsic Defects in Five-Fold Twinned Silver Nanowires”, ACS Nano, Vol. 6, Pages 60336039 (2012).
  • J. Zhu, S. Liu, O. Palchik, Yu. Koltypin, Nanoparticles by Pulse Sonoelectrochemical Methods//Langmuir. -2000. -№ 16, p. 6396-6399.
  • A.R. Shahverdi, S. Minaeian, H.R. Shahverdi, H. Jamalifar, A.A. Nohi, Rapid synthesis of silver nanoparticles using culture supernatants of Enterobacteria: A novel biological approach//Process. Biochem. -2007. -№ 42, p. 919-923.
  • G.A. Martinez-Castanon, N. Nino Martinez, F. Martinez-Gutierrez, J.R. Martinez-Mendoza, F. Ruiz, Synthesis and antibacterial activity of silver nanoparticles with different sizes//J Nanopart Res. -2008. -№ 10. -p. 1343-1348.
  • A. Shahverdi, A. Fakhimi, H. Shahverdi, S. Minaian, Synthesis and effect of silver nanoparticles on the antibacterial activity of different antibiotics against Staphylococcus aureus and Escherichia coli Ahmad//Nanomedicine: NBM, 2007. -V. 3. -№ 2. -pp. 168-171.
  • H. Huang, X. Yang, Recent progress of chitin-based materials//Carbohydr. Res. -2004. -V. 339. -№ 15. -p. 2627-2634.
  • A. Ahmad, P. Mukherjee, S. Senapati, D. Mandal, M.I. Khan, R. Kumar, M. Sastry, Extracellular biosynthesis of silver nanoparticles using the fungus Fusarium oxysporum//Colloids and Surfaces B: Biointerfaces, vol. 28. -pp. 313-318, 2003.
  • U. Nickel, K. Mansyreff, S. Schneider, Nanoparticle-Coated PDMS Elastomers for Enhancement of Raman//J. Raman Spectrosc. -2004. -№ 35. -p.101-110.
  • J.O. Steven, Sigma-Aldrich Co. http://www.sigmaaldrich.com/materials-science/nanomaterials/silver-nanoparticles.html
  • H.H. Huang, X.P. Ni, G.L. Loy, C.H. Chew, K.L. Tan, F.C. Loh, J.F. Deng, G.Q. Xu, Photochemical Formation of Silver Nanoparticles in Poly(N-vinylpyrrolidone)//Langmuir. -1996. -№ 12, p.909.
  • Shapochkin V.I., Semenova L.M., Bakhracheva Y.S., Gyulikhandanov E.L., Semenov S.V. Effect of nitrogen content on the structure and properties of nitrocarburized steel//Metal Science and Heat Treatment. -2011. -Vol. 52. -№ 9-10. -p. 413-419.
  • A. Henglein, M. Giersig, Separation of nanometer gold particles by size exclusion chromatography//J. Phys. Chem.B. -1999. -№ 103, p. 9533.
  • http://www. nanocomposix.com/products/silver/spheres.
  • O.V. Dementieva, M.E. Kartseva, M.A. Filippenko, E.M. Sedykh, L.N. Bannykh, B. Ya. Kogan, N.V. Andronova, R.I. Yakubovskaya, A.A. Pankratov, V.M. Rudoy/Silver nanoshells: Synthesis, Plasmonic Properties and Prospects in Cancer Therapy//Proceedings of Nanospain 2009. Zaragoza. Spain. Internet version.
  • V. Sharma, R. Yngard, Y. Lin, Biotinylated Ag-dendrimer nanocomposite was obtained by NaBH4 reduction.//Adv. Colloid Interfac. -2009. -№ 145, p. 83-96.
  • R.M. Tilaki, A. Irajizad, S.M. Mahdavi, Size, composition and optical properties of copper nanoparticles prepared by laser ablation in liquids//Appl. Phys. -2006. -№ 4. -p. 215-227.
  • A. Panacek, L. Kvitek, R. Prucek, M. Kolar, R. Vecerova, N. Pizurova, V.K. Sharma, T. Nevecna, R. Zboril, Silver colloid nanoparticles: Synthesis, characterization, and their antibacterial activity//J. Phys. Chem. B. -2006. -№ 110. -p. 16248-16253.
  • D.C. Tien, C.Y. Liao, J.C. Huang, K.H. Tseng, J.K. Lung, T.T. Tsung, W.S. Kao, T.H. Tsai, T.W. Cheng, B.S. Yu, H.M. Lin, L. Stobinski, Novel Technique for Preparing a Nano-Silver Water Suspension by the Arc-Discharge Method//Reviews on Advanced Materials Science. -Vol. 18, №. 8, pp. 750-756, 1 March 2008.
  • J. Liu, R. Hurt, Ion release kinetics and particle persistence in aqueous nano-silver colloids//Environ. Sci. Technol. -2010. -44, p. 2169-2175.
  • D.L. Van Hyning, C.F. Zukoski, Formation Mechanisms and Aggregation Behavior of Borohydride Reduced Silver Particles//Langmuir, -1998, Vol. 14. -24, pp 7034-7046.
  • S.D. Solomon, M. Bahadory, A.V. Jeyarajasingam, S.A. Rutkowsky, C. Boritz, Synthesis and Study of Ag NPs//J. Chem. Educ. -2007. -Vol. 84. -№ 2, p. 322.
  • E.V. Abkhalimov, A.A. Parsaev, B.G. Ershov, Uniform Liquid Flow Around Porous Spherical Capsule//Colloid J+. -2011. -Vol. 73. -№ 1, p. 1.
Еще
Статья научная