Abstract:
Optical printing is a simple and flexible method to bring colloidal nanoparticles from suspension to specific locations of a substrate. However, its application has been limited to the fabrication of arrays of isolated nanoparticles because, until now, it was never possible to bring nanoparticles closer together than approximately 300 nm. Here, we propose this limitation is due to thermophoretic repulsive forces generated by plasmonic heating of the NPs. We show how to overcome this obstacle and demonstrate the optical printing of connected nanoparticles with well-defined orientation. These experiments constitute a key step toward the fabrication by optical printing of functional nanostructures and microcircuits based on colloidal nanoparticles. © 2016 American Chemical Society.
Registro:
Documento: |
Artículo
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Título: | Connecting Metallic Nanoparticles by Optical Printing |
Autor: | Gargiulo, J.; Cerrota, S.; Cortés, E.; Violi, I.L.; Stefani, F.D. |
Filiación: | Centro de Investigaciones en Bionanociencias (CIBION), Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Godoy Cruz 2390, Ciudad de Buenos Aires, C1425FQD, Argentina Departamento de Física, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Güiraldes 2620, Ciudad de Buenos Aires, C1428EAH, Argentina
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Palabras clave: | gold nanoparticle; laser tweezers; Optical forces; optical manipulation; silver nanoparticle; thermophoresis; Colloids; Gold nanoparticles; Metal nanoparticles; Optical tweezers; Plasmonics; Suspensions (fluids); Thermophoresis; Colloidal nanoparticles; Functional nanostructures; Laser tweezers; Metallic nanoparticles; Optical force; Optical manipulation; Plasmonic heating; Specific location; Silver nanoparticles |
Año: | 2016
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Volumen: | 16
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Número: | 2
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Página de inicio: | 1224
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Página de fin: | 1229
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DOI: |
http://dx.doi.org/10.1021/acs.nanolett.5b04542 |
Título revista: | Nano Letters
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Título revista abreviado: | Nano Lett.
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ISSN: | 15306984
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CODEN: | NALEF
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Registro: | https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_15306984_v16_n2_p1224_Gargiulo |
Referencias:
- Urban, A.S., Lutich, A.A., Stefani, F.D., Feldmann, J., (2010) Nano Lett., 10, pp. 4794-4798
- Guffey, M.J., Scherer, N.F., (2010) Nano Lett., 10, pp. 4302-4308
- Urban, A.S., Fedoruk, M., Nedev, S., Lutich, A., Lohmueller, T., Feldmann, J., (2013) Adv. Opt. Mater., 1, pp. 123-127
- Bao, Y., Yan, Z., Scherer, N.F., (2014) J. Phys. Chem. C, 118, pp. 19315-19321
- Do, J., Fedoruk, M., Jäckel, F., Feldmann, J., (2013) Nano Lett., 13, pp. 4164-4168
- Do, J., Schreiber, R., Lutich, A.A., Liedl, T., Rodríguez-Fernández, J., Feldmann, J., (2012) Nano Lett., 12, pp. 5008-5013
- Guffey, M.J., Miller, R.L., Gray, S.K., Scherer, N.F., (2011) Nano Lett., 11, pp. 4058-4066
- Daniel, M., Astruc, D., (2004) Chem. Rev., 104, pp. 293-346
- Xia, Y., Xiong, Y., Lim, B., Skrabalak, S.E., (2009) Angew. Chem., Int. Ed., 48, pp. 60-103
- Murphy, C.J., Sau, T.K., Gole, A.M., Orendorff, C.J., Gao, J., Gou, L., Hunyadi, S.E., Li, T., (2005) J. Phys. Chem. B, 109, pp. 13857-13870
- Ghosh Chaudhuri, R., Paria, S., (2012) Chem. Rev., 112, pp. 2373-2433
- Nedev, S., Urban, A.S., Lutich, A.A., Feldmann, J., (2011) Nano Lett., 11, pp. 5066-5070
- Do, J., Sediq, K.N., Deasy, K., Coles, D.M., Rodríguez-Fernández, J., Feldmann, J., Lidzey, D.G., (2013) Adv. Opt. Mater., 1, pp. 946-951
- Li, M., Lohmüller, T., Feldmann, J., (2015) Nano Lett., 15, pp. 770-775
- Baffou, G., Quidant, R., (2013) Laser Photon. Rev., 7, pp. 171-187
- Curto, A.G., Volpe, G., Taminiau, T.H., Kreuzer, M.P., Quidant, R., Van Hulst, N.F., (2010) Science, 329, pp. 930-933
- Grigorenko, A.N., Roberts, N.W., Dickinson, M.R., Zhang, Y., (2008) Nat. Photonics, 2, pp. 365-370
- Wang, H., Levin, C.S., Halas, N.J., (2005) J. Am. Chem. Soc., 127, pp. 14992-14993
- Slaughter, L.S., Willingham, B.A., Chang, W.-S., Chester, M.H., Ogden, N., Link, S., (2012) Nano Lett., 12, pp. 3967-3972
- Yan, Z., Shah, R.A., Chado, G., Gray, S.K., Pelton, M., Scherer, N.F., (2013) ACS Nano, 7, pp. 1790-1802
- Dholakia, K., Zemánek, P., (2010) Rev. Mod. Phys., 82, pp. 1767-1791
- Coronado, E.A., Encina, E.R., Stefani, F.D., (2011) Nanoscale, 3, pp. 4042-4059
- Donner, J.S., Baffou, G., McCloskey, D., Quidant, R., (2011) ACS Nano, 5, pp. 5457-5462
- Würger, A., (2010) Rep. Prog. Phys., 73, p. 126601
- Epstein, V.P.S., (1929) Eur. Phys. J. A, 54, pp. 537-563
- Michaelides, E.E., (2015) Int. J. Heat Mass Transfer, 81, pp. 179-187
- Braun, M., Cichos, F., (2013) ACS Nano, 7, pp. 11200-11208
- Braun, M., Würger, A., Cichos, F., (2014) Phys. Chem. Chem. Phys., 16, pp. 15207-15213
- Jiang, H.-R., Yoshinaga, N., Sano, M., (2010) Phys. Rev. Lett., 105, p. 268302
- Putnam, S.A., Cahill, D.G., Wong, G.C.L., (2007) Langmuir, 23, pp. 9221-9228
- Giddings, J.C., Shinudu, P.M., Semenov, S.N., (1995) J. Colloid Interface Sci., 176, pp. 454-458
- Piazza, R., Parola, A., (2008) J. Phys.: Condens. Matter, 20, p. 153102
- Helden, L., Eichhorn, R., Bechinger, C., (2015) Soft Matter, 11, pp. 2379-2386
- Schermer, R.T., Olson, C.C., Coleman, J.P., Bucholtz, F., (2011) Opt. Express, 19, pp. 10571-10586
- Yue, A.S., (1977) J. Cryst. Growth, 42, pp. 542-546
Citas:
---------- APA ----------
Gargiulo, J., Cerrota, S., Cortés, E., Violi, I.L. & Stefani, F.D.
(2016)
. Connecting Metallic Nanoparticles by Optical Printing. Nano Letters, 16(2), 1224-1229.
http://dx.doi.org/10.1021/acs.nanolett.5b04542---------- CHICAGO ----------
Gargiulo, J., Cerrota, S., Cortés, E., Violi, I.L., Stefani, F.D.
"Connecting Metallic Nanoparticles by Optical Printing"
. Nano Letters 16, no. 2
(2016) : 1224-1229.
http://dx.doi.org/10.1021/acs.nanolett.5b04542---------- MLA ----------
Gargiulo, J., Cerrota, S., Cortés, E., Violi, I.L., Stefani, F.D.
"Connecting Metallic Nanoparticles by Optical Printing"
. Nano Letters, vol. 16, no. 2, 2016, pp. 1224-1229.
http://dx.doi.org/10.1021/acs.nanolett.5b04542---------- VANCOUVER ----------
Gargiulo, J., Cerrota, S., Cortés, E., Violi, I.L., Stefani, F.D. Connecting Metallic Nanoparticles by Optical Printing. Nano Lett. 2016;16(2):1224-1229.
http://dx.doi.org/10.1021/acs.nanolett.5b04542