Raman scattering activities

Raman scattering activities (A 4/AMU), Raman depolarization ratios. [Pg.248]

Raman scattering activities (A 4 /AMU), Raman depolarization ratios, reduced masses (AMU), force constants (mDyne/A) and normal coordinates ... [Pg.248]

John, 1. G., G. B. Bacskay, and N. S. Hush (1980). Finite field method calculations. VI. Raman scattering activities, infrared absorption intensities and higher order moments SCF and Cl calculations for the isotopic derivatives of H,0 and SCF calculations for CH4. Chem. Phys. 51, 49-60. [Pg.481]

Table 3.32 Calculated data relevant to polarizabilities in water dimer for intramolecular vibrational modes, and Raman scattering activities. ... [Pg.164]

Swanton, D. J., Bacskay, G. B., and Hush, N. S., An ab initio SCE calculation of the polarizability ten.mr, polarizability derivatives and Raman scattering activities of the water-dimer molecule. Chem. Phys. 83, 69-75 (1984). [Pg.203]

Itoh, T., Kikkawa, Y., Biju, V., Ishikawa, M., Ikehata, A., Ozaki, Y. (2006). Variations in Steady-State and Time-Resolved Background Luminescence fi om Surface-Enhanced Resonance Raman Scattering-Active Single Ag Nanoaggregates. J.Phys. Chem. B 110 21536-21544. [Pg.65]

Kwon K, Lee KY, Kim M, Lee YW, Heo J, Ahn SJ, Han SW (2006) High-yield synthesis of monodisperse polyhedral gold nanoparticles with controllable size and their surface-enhanced Raman scattering activity. Chem Phys Lett 432 209-212... [Pg.132]

Tsai YC, Hsu PC, Lin YW, Wu TM (2009) Electrochemical deposition of silver nanoparticles in multiwalled carbon nanotube-alumma-coated silica for surface-enhanced Raman scattering-active substrates. Electrochem Commun 11 542-545... [Pg.132]

Muniz-Miranda M (2003) Silver clusters onto nanosized colloidal silica as novel surface-enhanced Raman scattering active substrates. Appl Spectrosc 57 655-660... [Pg.584]

Silver films are formed on meso- and macroporous silicon (mejo-PS and macro-PS) by the immersion plating. Scanning electron microscopy reveals the formation of Ag islands along the dendritic structure at the surface of mejo-PS and Ag nanoparticles over the pore walls in the case of macro-PS. The surface-enhanced Raman scattering activity of Ag-macro-PS substrates appears to be greater in comparison with that for Ag-mcio-PS. [Pg.507]

Recently, the production of nanofibres using nanocomposites has attracted attention. This is due to the fact that this type of nanofibre combines the unique properties of nanocomposites with the outstanding characteristics of nanofibres. Metal/polymer nanocomposites have not only the potential to meet the requirements of applications such as photonic and electric sensors, filters, and artificial tissue, but also can act as catalysts. Silver nanoparticles are the most common embedded metal nanoparticles used in conjunction with polymers. This is because silver nanoparticles exhibit remarkable properties including catalytic activity, surface-enhanced Raman scattering activity, high electrical conductivity and antimicrobial activity. [Pg.63]

Serrano et have used similar methods to calculate the dipole moment, polarizability and first hyperpolarizability of CaC and have used the results to predict the Rayleigh and Raman scattering activity. [Pg.308]

KF Wall, RK Chang. Iodine vapor notch filter with optical multichannel detection of low-frequency-shift inelastic scattering from surface-enhanced Raman-scattering active electrodes. Optics Lett 11 493-495, 1986. [Pg.152]

Calculations. VII. Raman Scattering Activities, Infrared Absorption Intensities and Higher Order Moments SCF and Cl Calculations for the Isotopic Derivatives of H2O and SCF Calculations for CH4. [Pg.240]

Li XF, Cao MH, Zhang H, Zhou L, Cheng S, Yao JL, Fan LJ (2012) Surface-enhanced Raman scattering-active substrates of electrospun polyvinyl alcohol/gold-sUver nanofibers. J Colloid Interface Sci 382 28-35... [Pg.428]

X.W. Cao, C.W. Shi, W.B. Lu, H. Zhao, M. Wang, W. Tong, J. Dong, X.D. Han, W.P. Qian, Synthesis of Au nanostars and their application as surface enhanced Raman scattering-activity tags inside living cells. J. Nanosci. Nanotechnol. 15, 4829 (2015)... [Pg.145]

J. Dong, Q.F. Chen, C.H. Rong, D.Y. Li, Y.Y. Rao, Minimally invasive surface-enhanced Raman scattering detection with depth profiles based on a surface-enhanced Raman scattering-active acupuncture needle. Anal. Chem. 83, 6191 (2011)... [Pg.203]

Analytical derivative ab initio calculations on Raman scattering activities provide currendy results that are in fairly good accord with the available experimental data. The impact of the theoretical calculations is even greater in view of the difficulties in obtaining full polarizability derivative tensors from experimental measurements. [Pg.281]

Hu, J. W., B. Zhao, W. Q. Xu, Y. G. Fan, B. Li, and Y. Ozaki. 2002. Simple method for preparing control-lably aggregated silver particle films used as surface-enhanced Raman scattering active substrates. Langmuir 18 (18) 6839-6844. [Pg.358]

Reilly, T.H., Corbman, J.D. and Rowlen, K.L. (2007) Vapor deposition method for sensitivity smdies on engineered surface-enhanced Raman scattering-active substrates. Analytical Chemistry, 79, 5078-81. [Pg.217]

Tian, N., Zhou, Z.Y., Sun, S.G., Cui, L, Ren, B. and Tian, Z.Q. (2006) Electrochemical preparation of platinum nanothom assemblies with high surface enhanced Raman scattering activity. Chemical Communications, 4090. [Pg.396]

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