Abstract

We report the surface-enhanced Raman (SERS) spectra of morphine in silver colloid, and study the silver colloid enhanced effects on the Raman scattering of morphine. The Raman bands of morphine are assigned to certain molecule vibrations. The broad band in the long-wavelength region of the electronic absorption spectra of the sol with added adsorbent at certain concentrations has been explained in terms of the aggregation of the colloidal silver particles. The potential applications of SERS in quantitative measurement of the morphine samples are demonstrated. By using a proper Raman band of morphine, the detection limit of morphine in silver sol is found to be 1.5 ng/ml. The result suggests that it is of great significance to use SERS in illicit drug morphine inspection.

© 2009 Chinese Optics Letters

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2009 (1)

P. Li, J. Zhang, L. Zhang, and Y. Mo, Vibrational Spectroscopy 49, 2 (2009).

2008 (2)

2007 (3)

Y. Li, R. Chen, H. Zeng, Z. Huang, S. Feng, and S. Xie, Chin. Opt. Lett. 5, 105 (2007).

X. Huang, P. K. Jain, I. H. EI-Sayed, and M. A. EISayed, Nanomedicine 2, 681 (2007).

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

2006 (1)

X. Zhang, N. C. Shah, R. P. Van Duyne, Vibrational Spectroscopy 42, 2 (2006).

2005 (1)

2004 (2)

P. J. G. Goulet and R. F. Aroca, Can. J. Chem. 82, 987 (2004).

K. Kneipp, H. Kneipp, S. Abdali, R. W. Berge, and H. Bohr, Spectroscopy 18, 433 (2004).

2003 (1)

K. J. Jalkanen, J. Phys: Condens. Matter 15, S1823 (2003).

1998 (1)

N. R. Isola, D. L. Stokes, and T. Vo-Dinh, Anal. Chem. 70, 1352 (1998).

1995 (1)

S. S´anch´ez-Cort´es, J. V. Garc´ia-Ramos, G. Morcillo, and A. Tinti, J. Colloid Interf. Sci. 175, 358 (1995).

1983 (1)

J. A. Creighton, Surf. Sci. 124, 209 (1983).

1982 (1)

P. C. Lee and D. Meisel, J. Phys. Chem. 86, 3391 (1982).

1974 (1)

M. Fleischmann, P. J. Hendra, and A. J. McQuillan, Chem. Phys. Lett. 26, 163 (1974).

Abdali, S.

K. Kneipp, H. Kneipp, S. Abdali, R. W. Berge, and H. Bohr, Spectroscopy 18, 433 (2004).

Agarwal, A.

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

Aroca, R. F.

P. J. G. Goulet and R. F. Aroca, Can. J. Chem. 82, 987 (2004).

Balasubramanian, N.

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

Berge, R. W.

K. Kneipp, H. Kneipp, S. Abdali, R. W. Berge, and H. Bohr, Spectroscopy 18, 433 (2004).

Bohr, H.

K. Kneipp, H. Kneipp, S. Abdali, R. W. Berge, and H. Bohr, Spectroscopy 18, 433 (2004).

Cai, W.

Chen, R.

Creighton, J. A.

J. A. Creighton, Surf. Sci. 124, 209 (1983).

Duyne, R. P. Van

X. Zhang, N. C. Shah, R. P. Van Duyne, Vibrational Spectroscopy 42, 2 (2006).

EISayed, M. A.

X. Huang, P. K. Jain, I. H. EI-Sayed, and M. A. EISayed, Nanomedicine 2, 681 (2007).

EI-Sayed, I. H.

X. Huang, P. K. Jain, I. H. EI-Sayed, and M. A. EISayed, Nanomedicine 2, 681 (2007).

Feng, S.

Fleischmann, M.

M. Fleischmann, P. J. Hendra, and A. J. McQuillan, Chem. Phys. Lett. 26, 163 (1974).

Garc´ia-Ramos, J. V.

S. S´anch´ez-Cort´es, J. V. Garc´ia-Ramos, G. Morcillo, and A. Tinti, J. Colloid Interf. Sci. 175, 358 (1995).

Garland, M.

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

Goulet, P. J. G.

P. J. G. Goulet and R. F. Aroca, Can. J. Chem. 82, 987 (2004).

Guo, J.

Hendra, P. J.

M. Fleischmann, P. J. Hendra, and A. J. McQuillan, Chem. Phys. Lett. 26, 163 (1974).

Huang, X.

X. Huang, P. K. Jain, I. H. EI-Sayed, and M. A. EISayed, Nanomedicine 2, 681 (2007).

Huang, Z.

Isola, N. R.

N. R. Isola, D. L. Stokes, and T. Vo-Dinh, Anal. Chem. 70, 1352 (1998).

Jain, P. K.

X. Huang, P. K. Jain, I. H. EI-Sayed, and M. A. EISayed, Nanomedicine 2, 681 (2007).

Jalkanen, K. J.

K. J. Jalkanen, J. Phys: Condens. Matter 15, S1823 (2003).

Ji, K.

Jiang, Y.

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

Ke, W.

Kneipp, H.

K. Kneipp, H. Kneipp, S. Abdali, R. W. Berge, and H. Bohr, Spectroscopy 18, 433 (2004).

Kneipp, K.

K. Kneipp, H. Kneipp, S. Abdali, R. W. Berge, and H. Bohr, Spectroscopy 18, 433 (2004).

Kwong, D. L.

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

Lee, P. C.

P. C. Lee and D. Meisel, J. Phys. Chem. 86, 3391 (1982).

Li, P.

P. Li, J. Zhang, L. Zhang, and Y. Mo, Vibrational Spectroscopy 49, 2 (2009).

Li, Y.

McQuillan, A. J.

M. Fleischmann, P. J. Hendra, and A. J. McQuillan, Chem. Phys. Lett. 26, 163 (1974).

Meisel, D.

P. C. Lee and D. Meisel, J. Phys. Chem. 86, 3391 (1982).

Mo, Y.

P. Li, J. Zhang, L. Zhang, and Y. Mo, Vibrational Spectroscopy 49, 2 (2009).

Morcillo, G.

S. S´anch´ez-Cort´es, J. V. Garc´ia-Ramos, G. Morcillo, and A. Tinti, J. Colloid Interf. Sci. 175, 358 (1995).

S´anch´ez-Cort´es, S.

S. S´anch´ez-Cort´es, J. V. Garc´ia-Ramos, G. Morcillo, and A. Tinti, J. Colloid Interf. Sci. 175, 358 (1995).

Shah, N. C.

X. Zhang, N. C. Shah, R. P. Van Duyne, Vibrational Spectroscopy 42, 2 (2006).

Stokes, D. L.

N. R. Isola, D. L. Stokes, and T. Vo-Dinh, Anal. Chem. 70, 1352 (1998).

Sun, Z.

Tan, R. Z.

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

Tinti, A.

S. S´anch´ez-Cort´es, J. V. Garc´ia-Ramos, G. Morcillo, and A. Tinti, J. Colloid Interf. Sci. 175, 358 (1995).

Vo-Dinh, T.

N. R. Isola, D. L. Stokes, and T. Vo-Dinh, Anal. Chem. 70, 1352 (1998).

Wang, Z.

Widjaja, E.

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

Wu, J.

Wu, L.

Xie, S.

Yang, J.

Zeng, H.

Zhang, J.

P. Li, J. Zhang, L. Zhang, and Y. Mo, Vibrational Spectroscopy 49, 2 (2009).

Zhang, L.

P. Li, J. Zhang, L. Zhang, and Y. Mo, Vibrational Spectroscopy 49, 2 (2009).

Zhang, X.

X. Zhang, N. C. Shah, R. P. Van Duyne, Vibrational Spectroscopy 42, 2 (2006).

Zhang, Y.

Zhou, D.

Zhu, J.

Anal. Chem. (1)

N. R. Isola, D. L. Stokes, and T. Vo-Dinh, Anal. Chem. 70, 1352 (1998).

Appl. Spectrosc. (1)

Can. J. Chem. (1)

P. J. G. Goulet and R. F. Aroca, Can. J. Chem. 82, 987 (2004).

Chem. Phys. Lett. (1)

M. Fleischmann, P. J. Hendra, and A. J. McQuillan, Chem. Phys. Lett. 26, 163 (1974).

Chin. Opt. Lett. (3)

J. Colloid Interf. Sci. (1)

S. S´anch´ez-Cort´es, J. V. Garc´ia-Ramos, G. Morcillo, and A. Tinti, J. Colloid Interf. Sci. 175, 358 (1995).

J. Phys. Chem. (1)

P. C. Lee and D. Meisel, J. Phys. Chem. 86, 3391 (1982).

J. Phys: Condens. Matter (1)

K. J. Jalkanen, J. Phys: Condens. Matter 15, S1823 (2003).

Nanomedicine (1)

X. Huang, P. K. Jain, I. H. EI-Sayed, and M. A. EISayed, Nanomedicine 2, 681 (2007).

Sensors and Actuators A (1)

R. Z. Tan, A. Agarwal, N. Balasubramanian, D. L. Kwong, Y. Jiang, E. Widjaja, and M. Garland, Sensors and Actuators A 139, 36 (2007).

Spectroscopy (1)

K. Kneipp, H. Kneipp, S. Abdali, R. W. Berge, and H. Bohr, Spectroscopy 18, 433 (2004).

Surf. Sci. (1)

J. A. Creighton, Surf. Sci. 124, 209 (1983).

Vibrational Spectroscopy (2)

X. Zhang, N. C. Shah, R. P. Van Duyne, Vibrational Spectroscopy 42, 2 (2006).

P. Li, J. Zhang, L. Zhang, and Y. Mo, Vibrational Spectroscopy 49, 2 (2009).

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