Formation of nanoparticles during double-pulse laser ablation of metals in liquids

V. S. Burakov; N. V. Tarasenko; A. V. Butsen; V. A. Rozantsev; M. I. Nedel'ko

doi:10.1051/epjap:2005016

Abstract

Pulsed laser ablation of metal samples in liquid environments by using a combination of two laser beams has been examined in order to clarify a possibility of the formation of size-selected nanoparticles with controlled dimensions. It has been shown that double-pulse laser ablation technique in transparent liquids can be a good choice for fabrication of stable metal nanoparticles where an efficiency of ablation process can be increased and the wider range of a controllable variation of the mean diameter of the fabricated particles can be achieved.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Babushok, V.I. DeLucia, F.C. Gottfried, J.L. Munson, C.A. and Miziolek, A.W. 2006. Double pulse laser ablation and plasma: Laser induced breakdown spectroscopy signal enhancement. Spectrochimica Acta Part B: Atomic Spectroscopy, Vol. 61, Issue. 9, p. 999.

Golightly, Justin S. and Castleman, A. W. 2006. Analysis of Titanium Nanoparticles Created by Laser Irradiation under Liquid Environments. The Journal of Physical Chemistry B, Vol. 110, Issue. 40, p. 19979.

De Giacomo, A. Dell'Aglio, M. De Pascale, O. and Capitelli, M. 2007. From single pulse to double pulse ns-Laser Induced Breakdown Spectroscopy under water: Elemental analysis of aqueous solutions and submerged solid samples. Spectrochimica Acta Part B: Atomic Spectroscopy, Vol. 62, Issue. 8, p. 721.

Shinozaki, Kazuo Kasahara, Masayasu Kiguchi, Takanori Mizutani, Nobuyasu and Wakiya, Naoki 2007. Preparation and Structure of Lead Magnesium Niobate Titanate Film by Double-Pulse Excitation using Nd:YAG and KrF Excimer Lasers. Japanese Journal of Applied Physics, Vol. 46, Issue. 2R, p. 657.

Phuoc, Tran X. Soong, Yee and Chyu, Minking K. 2007. Synthesis of Ag-deionized water nanofluids using multi-beam laser ablation in liquids. Optics and Lasers in Engineering, Vol. 45, Issue. 12, p. 1099.

2008. Handbook of Liquids-Assisted Laser Processing. p. 387.

Phuoc, Tran X. Howard, Bret. H. Martello, Donald V. Soong, Yee and Chyu, Minking K. 2008. Synthesis of Mg(OH)2, MgO, and Mg nanoparticles using laser ablation of magnesium in water and solvents. Optics and Lasers in Engineering, Vol. 46, Issue. 11, p. 829.

Muravitskaya, E.V. Rosantsev, V.A. Belkov, M.V. Ershov-Pavlov, E.A. and Klyachkovskaya, E.V. 2009. Laser ablation in liquids as a new technique of sampling in elemental analysis of solid materials. Spectrochimica Acta Part B: Atomic Spectroscopy, Vol. 64, Issue. 2, p. 119.

Burakov, V. S. Butsen, A. V. and Tarasenko, N. V. 2010. Laser-induced plasmas in liquids for nanoparticle synthesis. Journal of Applied Spectroscopy, Vol. 77, Issue. 3, p. 386.

Kozadaev, K. V. 2011. Diagnostics of aqueous colloids of noble metals by extinction modeling based on mie theory. Journal of Applied Spectroscopy, Vol. 78, Issue. 5, p. 692.

Muniz-Miranda, Maurizio Gellini, Cristina and Giorgetti, Emilia 2011. Surface-Enhanced Raman Scattering from Copper Nanoparticles Obtained by Laser Ablation. The Journal of Physical Chemistry C, Vol. 115, Issue. 12, p. 5021.

Giorgetti, Emilia Muniz-Miranda, Maurizio Marsili, Paolo Scarpellini, David and Giammanco, Francesco 2012. Stable gold nanoparticles obtained in pure acetone by laser ablation with different wavelengths. Journal of Nanoparticle Research, Vol. 14, Issue. 1,

Singh, Subhash Chandra Zeng, Haibo Yang, Shikuan Cai, Weiping Hong, Minghui Chen, Guoxin and Chong, Tow Chong 2012. Nanomaterials. p. 317.

Tarasenko, Nikolai V. Butsen, Andrei V. Nedelko, Mikhail I. and Tarasenka, Natalie N. 2012. Laser-Aided Preparation and Modification of Gadolinium Silicide Nanoparticles in Liquid. The Journal of Physical Chemistry C, Vol. 116, Issue. 6, p. 3897.

Voitovich, Alexander P. Malashkevich, G. E. and Tarasenko, N. V. 2013. Nano-Optics for Enhancing Light-Matter Interactions on a Molecular Scale. p. 177.

Tarasenka, Natalie Butsen, Andrei Pankov, Vladimir and Tarasenko, Nikolai 2013. Structural defects and magnetic properties of gadolinium silicide nanoparticles synthesized by laser ablation technique in liquid. physica status solidi (b), Vol. 250, Issue. 4, p. 809.

Dell'Aglio, Marcella Gaudiuso, Rosalba ElRashedy, Remah De Pascale, Olga Palazzo, Gerardo and De Giacomo, Alessandro 2013. Collinear double pulse laser ablation in water for the production of silver nanoparticles. Physical Chemistry Chemical Physics, Vol. 15, Issue. 48, p. 20868.

Goncharov, V. K. and Kozadaev, K. V. 2013. Complex optical method of express diagnostics of transparent media containing nanoparticles of noble metals. Journal of Engineering Physics and Thermophysics, Vol. 86, Issue. 4, p. 868.

Hamad, Syed Podagatlapalli, G Krishna Tewari, Surya P and Rao, S Venugopal 2013. Influence of picosecond multiple/single line ablation on copper nanoparticles fabricated for surface enhanced Raman spectroscopy and photonics applications. Journal of Physics D: Applied Physics, Vol. 46, Issue. 48, p. 485501.

Mahdieh, M H and Momeni, A 2015. From single pulse to double pulse ns laser ablation of silicon in water: photoluminescence enhancement of silicon nanocrystals. Laser Physics, Vol. 25, Issue. 1, p. 015901.

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Formation of nanoparticles during double-pulse laser ablation of metals in liquids

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Formation of nanoparticles during double-pulse laser ablation of metals in liquids

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