Formation of Nanoparticles and Plasmonic Structures in Porous Materials Using Laser and SCF Technologies

A. O. Rybaltovskii; V. G. Arakcheev; N. V. Minaev; V. I. Yusupov; S. I. Tsypina

doi:10.1134/s1990793119070273

journal article Dec 01, 2019

Formation of Nanoparticles and Plasmonic Structures in Porous Materials Using Laser and SCF Technologies

A. O. Rybaltovskii V. G. Arakcheev N. V. Minaev V. I. Yusupov S. I. Tsypina

Russian Journal of Physical Chemistry B Vol. 13 No. 7 pp. 1220-1234 · Pleiades Publishing Ltd

View at Publisher Save 10.1134/s1990793119070273

Topics

No keywords indexed for this article. Browse by subject →

References

45

[1]

Y. Zhang and C. Erkey, J. Supercrit. Fluids 38, 252 (2006). 10.1016/j.supflu.2006.03.021

[2]

S. E. Bozbag, D. Sanli, and C. Erkey, J. Mater. Sci. 47, 3469 (2012). 10.1007/s10853-011-6064-9

[3]

Synthesis of nanostructured materials using supercritical CO2: Part I. Physical transformations

D. Sanli, S. E. Bozbag, C. Erkey

Journal of Materials Science 2011 10.1007/s10853-011-6054-y

[4]

S. E. Bozbag and C. Erkey, J. Supercrit. Fluids 96, 298 (2015). 10.1016/j.supflu.2014.09.036

[5]

A. D. Pomogailo and V. N. Kestelan, Metallopolymer Nanocomposites (Springer, Berlin, Heidelberg, 2005). 10.1007/b137740

[6]

W. Casari, Chem. Eng. Commun. 196, 549 (2009). 10.1080/00986440802483954

[7]

B. P. Rand, P. Peumans, and S. R. Forrest, J. Appl. Phys. 96, 7519 (2004). 10.1063/1.1812589

[8]

A. Convertino, A. Valentini, and R. Cingolani, Appl. Phys. Lett. 75, 732 (1999). 10.1063/1.124363

[9]

A. Convertino, A. Capobianchi, A. A. Valentini, and E. N. M. Cirillo, Adv. Mater. 15, 1103 (2003). 10.1002/adma.200304777

[10]

Y. Zare and I. Shabani, Mater. Sci. Eng. C 40, 195 (2016). 10.1016/j.msec.2015.11.023

[11]

Nanoparticle-based Sensors

V. Khanna

Defence Science Journal 2008 10.14429/dsj.58.1683

[12]

S. N. Shtykov and T. Yu. Rusanova, Ross. Klin. Zh. 52, 92 (2008).

[13]

S. M. Nie and S. R. Emory, Science (Washington, DC, U. S.) 275, 1102 (1997). 10.1126/science.275.5303.1102

[14]

T. Hassel, L. Lagonigro, A. C. Peacock, S. Yoda, P. D. Brown, P. J. A. Sazio, and S. M. Howdle, Adv. Funct. Mater. 18, 1265 (2008). 10.1002/adfm.200701429

[15]

Laser fabrication of periodic microstructures from silver nanoparticles in polymer films

V. N. Bagratashvili, N. V. Minaev, A. A. Rybaltovsky et al.

Laser Physics 2010 10.1134/s1054660x09180017

[16]

Laser-induced atomic assembling of periodic layered nanostructures of silver nanoparticles in fluoro-polymer film matrix

V.N. Bagratashvili, A.O. Rybaltovsky, N.V. Minaev et al.

Laser Physics Letters 2010 10.1002/lapl.200910159

[17]

Self-organization of filaments from Au particles in transparent solids, stimulated by laser photolysis of incorporated Au precursor

V.N. Bagratashvili, N.V. Minaev, A.O. Rybaltovskii et al.

Laser Physics Letters 2011 10.1002/lapl.201110076

[18]

A. O. Rybaltovskii, V. N. Bagratashvili, S. S. Ilyukhin, D. A. Lemenovskii, N. V. Minaev, V. V. Firsov, and V. I. Yusupov, Nanotechnol. Russ. 8, 553 (2013). 10.1134/s1995078013040150

[19]

V. N. Bagratashvili, A. O. Rybaltovskii, S. S. Ilyukhin, O. L. Zakharkina, V. Ya. Panchenko, P. S. Timashev, M. A. Timofeev, S. I. Tsypina, V. I. Yusupov, A. B. Evlyukhin, and B. N. Chichkov, Laser Phys. 24, 126001 (2014). 10.1088/1054-660x/24/12/126001

[20]

A. O. Rybaltovskii, S. S. Ilyukhin, N. V. Minaev, P. S. Timashev, V. I. Yusupov, and V. N. Bagratashvili, Nanotechnol. Russ. 9, 227 (2014). 10.1134/s1995078014030148

[21]

A. O. Rybaltovskii, A. A. Aksenov, V. I. Gerasimova, Yu. S. Zavorotnyi, V. K. Popov, and V. N. Bagratashvili, Sverkhkrit. Flyuidy: Teor. Prakt. 3 (2), 74 (2008).

[22]

V. N. Bagratashvili, L. D. Bogomolova, V. I. Gerasimova, and V. A. Jachkin, N. A. Krasil’nikova, A. O. Rybaltovskii, and S. I. Tsypina, J. Non-Cryst. Solids 345–346, 256 (2004). 10.1016/j.jnoncrysol.2004.08.092

[23]

V. N. Bagratashvili, V. D. Bogomolova, V. A. Zhachkin, N. A. Krasil’nikova, A. O. Rybaltovskii, S. I. Tsypina, and E. A. Chutko, Glass Phys. Chem. 30, 500 (2004). 10.1007/s10720-005-0005-0

[24]

E. A. Chutko, S. I. Tsypina, A. A. Sviridova, and V. N. Bagratashvili, Proc. SPIE 5399, 115 (2004). 10.1117/12.552751

[25]

V. I. Gerasimova, Yu. S. Zavorotnyi, A. O. Rybaltovskii, A. Yu. Taraeva, S. I. Tsypina, and V. N. Bagratashvili, Opt. Spectrosc. 98, 564 (2005). 10.1134/1.1914893

[26]

A. O. Rybaltovskii, V. Gerasimova, L. D. Bogomolova, V. A. Zhachkin, D. A. Lemenovskii, S. I. Tsypina, and V. N. Bagratshvili, J. Appl. Spectrosc. 73, 504 (2006). 10.1007/s10812-006-0109-x

[27]

A. O. Rybaltovskii, A. A. Aksenov, V. I. Gerasimova, Yu. S. Zavorotnyi, V. K. Popov, A. B. Solov’eva, P. S. Timashev, and V. N. Bagratashvili, Sverkhkrit. Flyuidy: Teor. Prakt. 3 (1), 50 (2008).

[28]

A. Yu. Taraeva, V. I. Gerasimova, Yu. S. Zavorotnyi, A. O. Rybaltovskii, and V. N. Bagratashvili, Sverkhkrit. Flyuidy: Teor. Prakt. 3 (1), 59 (2008).

[29]

A. O. Rybaltovskii, V. I. Gerasimova, N. V. Minaev, V. I. Sokolov, P. S. Timashev, E. A. Troichkaya, and V. V. Firsov, Nanotechnol. Russ. 5, 435 (2010). 10.1134/s1995078010070025

[30]

H. H. Richardson, M. T. Carson, P. H. Tandler, P. A. Hernandez, and A. O. Govorov, Nano Lett. 9, 1139 (2009). 10.1021/nl8036905

[31]

V. N. Bagratashvili, A. O. Rybaltovskii, N. V. Minaev, V. I. Yusupov, and S. I. Tsypina, Vestn. RFFI 3 (83), 44 (2014).

[32]

L. E. Scriven and C. V. Sternling, Nature (London, U.K.) 187, 186 (1960). 10.1038/187186a0

[33]

V. V. Klimov, Nanoplasmonics (Fizmatlit, Moscow, 2009; Pan Stanford, Singapore, 2011).

[34]

V. I. Gerasimova, Yu. S. Zavorotnyi, A. O. Rybaltovskii, A. Yu. Taraeva, S. I. Tsypina, and V. N. Bagratashvili, Opt. Spectrosc. 98, 564 (2005). 10.1134/1.1914893

[35]

N. M. Astafieva, Phys. Usp. 39, 1085 (1996). 10.1070/pu1996v039n11abeh000177

[36]

V. I. Emel’yanov, Quantum Electron. 41, 145 (2011). 10.1070/qe2011v041n02abeh014468

[37]

A. O. Rybaltovskii, V. G. Arakcheev, A. N. Bekin, A. F. Danilyuk, V. I. Gerasimova, N. V. Minaev, E. N. Golubeva, O. O. Parenago, and V. N. Bagratashvili, Russ. J. Phys. Chem. B 9, 1137 (2015). 10.1134/s1990793115080096

[38]

Laser assisted synthesis of silver nanoparticles in silica aerogel by supercritical deposition technique

Vladimir Arakcheev, Victor Bagratashvili, Alexey Bekin et al.

The Journal of Supercritical Fluids 2017 10.1016/j.supflu.2017.03.028

[39]

Effect of wavelength in laser-assisted synthesis of silver nanoparticles by supercritical deposition technique

Vladimir Arakcheev, Victor Bagratashvili, Alexey Bekin et al.

The Journal of Supercritical Fluids 2018 10.1016/j.supflu.2018.04.003

[40]

A. A. Akovantseva, N. A. Aksenova, T. S. Zarkhina, L. I. Krotova, N. V. Minaev, A. O. Rybaltovskii, B. C. Kholkhoev, I. A. Farion, V. I. Yusupov, V. F. Burdukovskii, V. N. Bagratashvili, and P. S. Timashev, J. Appl. Chem. 90, 84 (2017).

[41]

C.-A. J. Lin, C.-H. Lee, J.-T. Hsieh, H.-H. Wang, J. K. Li, J.-L. Shen, W.-H. Chan, H.-I. Yeh, and W. H. Chang, J. Med. Biol. Eng. 29, 276 (2009).

[42]

P. Kunwar, J. Hassinen, G. Bautista, R. H. A. Ras, and J. Toivonen, ACS Nano 8, 11165 (2014). 10.1021/nn5059503

[43]

J. Li, J.-J. Zhu, and K. Hu, Trends Anal. Chem. 58, 90 (2014). 10.1016/j.trac.2014.02.011

[44]

N. M. Biryurin, Quantum Electron. 40, 955 (2010). 10.1070/qe2010v040n11abeh014442

[45]

A. O. Rybaltovskii, S. S. Ilyukhin, N. V. Minaev, M. I. Samoilovich, M. Yu. Tsvetkov, and V. N. Bagratashvili, Ross. Khim. Zh. 16 (1–2), 91 (2012).

Cited By

3

Modeling of Processes and Physicochemical Properties of Fluids in the Near- and Supercritical Regions of State Parameters: Review

Yu. K. Tovbin · 2023

Russian Journal of Physical Chemist...

Metrics

3

Citations

45

References

Details

Published: Dec 01, 2019
Vol/Issue: 13(7)
Pages: 1220-1234
License: View

Authors

Cite This Article

A. O. Rybaltovskii, V. G. Arakcheev, N. V. Minaev, et al. (2019). Formation of Nanoparticles and Plasmonic Structures in Porous Materials Using Laser and SCF Technologies. Russian Journal of Physical Chemistry B, 13(7), 1220-1234. https://doi.org/10.1134/s1990793119070273

Formation of Nanoparticles and Plasmonic Structures in Porous Materials Using Laser and SCF Technologies

You May Also Like