Artículos de revistas
Surface-enhanced Resonance Raman Scattering (serrs) Using Au Nanohole Arrays On Optical Fiber Tips
Registro en:
Plasmonics. , v. 8, n. 2, p. 1113 - 1121, 2013.
15571955
10.1007/s11468-013-9518-x
2-s2.0-84877614616
Autor
Andrade G.F.S.
Hayashi J.G.
Rahman M.M.
Salcedo W.J.
Cordeiro C.M.B.
Brolo A.G.
Institución
Resumen
Circular and bow tie-shaped Au nanoholes arrays were fabricated on gold films deposited on the tips of single-mode optical fibers. The nanostructures were milled using focused ion beam with a high quality control of their shapes and sizes. The optical fiber devices were used for surface-enhanced resonance Raman scattering (SERRS) measurements in both back- and forward-scattering geometries, yielding promising performance in both detection arrangements. The effect of the hole shape on the SERRS performance was explored with the bow tie nanostructures presenting a better SERRS performance than the circular holes arrays. The results present here are another step towards the development of optical fiber tips modified with plasmonic nanostructures for SERRS applications. [Figure not available: see fulltext.] © 2013 Springer Science+Business Media New York. 8 2 1113 1121 Wolfbeis, O.S., (2006) Anal Chem, 78, p. 3859 Bello, J.M., Narayanan, V.A., Stokes, D.L., Vodinh, T., (1990) Anal Chem, 62, p. 2437 Mullen, K.I., Carron, K.T., (1991) Anal Chem, 63, p. 2196 Fleischmann, M., Hendra, P.J., McQuillan, A.J., (1974) Chem Phys Lett, 26, p. 163 Jeanmaire, D.L., Vanduyne, R.P., (1977) J Electroanal Chem, 84, p. 1 Albrecht, M.G., Creighton, J.A., (1977) J Am Chem Soc, 99, p. 5215 Brolo, A.G., Irish, D.E., Smith, B.D., (1997) J Mol Struct, 405, p. 29 Wu, D.Y., Li, J.F., Ren, B., Tian, Z.Q., (2008) Chem Soc Rev, 37, p. 1025 Kneipp, J., Kneipp, H., Kneipp, K., (2008) Chem Soc Rev, 37, p. 1052 Leger, C., Bertrand, P., (2008) Chem Rev, 108, p. 2379 Han, X.X., Chen, L., Ji, W., Xie, Y., Zhao, B., Ozaki, Y., (2011) Small, 7, p. 316 Pallaoro, A., Braun, G.B., Reich, N.O., Moskovits, M., (2010) Small, 6, p. 618 Kneipp, K., Wang, Y., Kneipp, H., Perelman, L.T., Itzkan, I., Dasari, R., Feld, M.S., (1997) Phys Rev Lett, 78, p. 1667 Nie, S.M., Emery, S.R., (1997) Science, 275, p. 1102 Hudson, S.D., Chumanov, G., (2009) Anal Bioanal Chem, 394, p. 679 Bell, S.E.J., Sirimuthu, N.M.S., (2008) Chem Soc Rev, 37, p. 1012 Fan, M., Andrade, G.F.S., Brolo, A.G., (2011) Anal Chim Acta, 693, p. 7 Aroca, R., (2006) Surface-Enhanced Vibrational Spectroscopy, , New York: Wiley Le Ru, E.C., Etchegoin, P.G., (2009) Principles of Surface-Enhanced Raman Spectroscopy: And Related Plasmonic Effects, , Amsterdam: Elsevier Kelly, K.L., Coronado, E., Zhao, L.L., Schatz, G.C., (2003) J Phys Chem B, 107, p. 668 Brolo, A.G., Sanderson, A.C., (2004) Can J Chem-Revue Canadienne De Chimie, 82, p. 1474 Brolo, A.G., Addison, C.J., (2005) J Raman Spectrosc, 36, p. 629 Vo-Dinh, T., Stokes, D.L., (2002) Handbook of Vibrational Spectroscopy, p. 1302. , J. M. Chalmers and P. R. Griffiths (Eds.), Chichester: Wiley Stoddart, P.R., White, D.J., (2009) Anal Bioanal Chem, 394, p. 1761 Homola, J., Yee, S.S., Gauglitz, G., (1999) Sensors Actuators B-Chem, 54, p. 3 Sharma, A.K., Jha, R., Gupta, B.D., (2007) IEEE Sensors J, 7, p. 1118 Guieu, V., Lagugne-Labarthet, F., Servant, L., Talaga, D., Sojic, N., (2008) Small, 4, p. 96 Andrade, G.F.S., Brolo, A.G., (2012) Nanoplasmonic Sensors, p. 289. , A. Dmitriev (Ed.), New York: Springer Stokes, D.L., Vo-Dinh, T., (2000) Sensors Actuators B-Chem, 69, p. 28 Andrade, G.F.S., Fan, M., Brolo, A.G., (2010) Biosens Bioelectron, 25, p. 2270 Zheng, X.L., Guo, D.W., Shao, Y.L., Jia, S.J., Xu, S.P., Zhao, B., Xu, W.Q., Lombardi, J.R., (2008) Langmuir, 24, p. 4394 Kostovski, G., White, D.J., Mitchell, A., Austin, M.W., Stoddart, P.R., (2009) Biosens Bioelectron, 24, p. 1531 Smythe, E.J., Dickey, M.D., Bao, J., Whitesides, G.M., Capasso, F., (2009) Nano Lett, 9, p. 1132 Brolo, A.G., Gordon, R., Leathem, B., Kavanagh, K.L., (2004) Langmuir, 20, p. 4813 Brolo, A.G., Arctander, E., Gordon, R., Leathem, B., Kavanagh, K.L., (2004) Nano Lett, 4, p. 2015 Gordon, R., Sinton, D., Kavanagh, K.L., Brolo, A.G., (2008) Acc Chem Res, 41, p. 1049 Lesuffleur, A., Kumar, L.K.S., Brolo, A.G., Kavanagh, K.L., Gordon, R., (2007) J Phys Chem C, 111, p. 2347 Min, Q., Santos, M.J.L., Girotto, E.M., Brolo, A.G., Gordon, R., (2008) J Phys Chem C, 112, p. 15098 Dhawan, A., Muth, J.F., Leonard, D.N., Gerhold, M.D., Gleeson, J., Vo-Dinh, T., Russell, P.E., (2008) J Vac Sci Technol B, 26, p. 2168 Kovacs, G.J., Loutfy, R.O., Vincett, P.S., Jennings, C., Aroca, R., (1986) Langmuir, 2, p. 689 Reilly, T.H., Chang, S.H., Corbman, J.D., Schatz, G.C., Rowlen, K.L., (2007) J Phys Chem C, 111, p. 1689 Tarcha, P.J., DeSaja-Gonzalez, J., Rodriguez-Llorente, S., Aroca, R., (1999) Appl Spectrosc, 53, p. 43 Pristinski, D., Du, H., (2006) Opt Lett, 31, p. 3246