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Books on the topic 'Raman resonance'

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Published: 9 March 2023

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1

1935-, Spiro Thomas G., ed. Resonance Raman spectra of Heme and metalloproteins. New York: Wiley, 1988.

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2

1935-, Spiro Thomas G., ed. Resonance Raman spectra of polyenes and aromatics. New York: Wiley, 1987.

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3

Derner, Harald. Untersuchungen über den Resonanz-Ramaneffekt an Anthracen, Naphthalin und p-nitro-p-dimethylamino-azobenzol. Freiburg [im Breisgau]: Hochschulverlag, 1986.

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4

Bugay, David E. Pharmaceutical excipients: Characterization by IR, Raman, and NMR spectroscopy. New York: M. Dekker, 1999.

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5

Bigioni, Terry Paul. CdS band gap measurement of bulk and nanowires using resonance Raman spectroscopy. Ottawa: National Library of Canada, 1994.

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6

United States. National Aeronautics and Space Administration., ed. Semi-annual progress report ... entitled Resonance fluorescence in atmospheric gases, for the period September 16, 1985 - March 15, 1986. [College Park, MD]: Institute for Physical Science and Technology, University of Maryland, 1986.

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7

Vo-Dinh, Tuan, and Joseph R. Lakowicz. Plasmonics in biology and medicine VIII: 23-24 January 2011, San Francisco, California, United States. Bellingham, Wash: SPIE, 2011.

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8

Vo-Dinh, Tuan, and Joseph R. Lakowicz. Plasmonics in biology and medicine VII: 25 and 27-28 January 2010, San Francisco, California, United States. Edited by SPIE (Society). Bellingham, Wash: SPIE, 2010.

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9

Vo-Dinh, Tuan, and Joseph R. Lakowicz. Plasmonics in biology and medicine IX: 22-24 January 2012, San Francisco, California, United States. Edited by SPIE (Society). Bellingham, Washington: SPIE, 2012.

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10

Tuan, Vo-Dinh, Lakowicz Joseph R, and Society of Photo-optical Instrumentation Engineers., eds. Plasmonics in biology and medicine IV: 23 January 2007, San Jose, California, USA. Bellingham, Wash: SPIE, 2007.

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11

H, Clark R. J., and Hester R. E, eds. Biomedical applications of spectroscopy. Chichester: Wiley, 1996.

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12

Carey, P. Biochemical Applications of Raman and Resonance Raman Spectroscopes. Elsevier Science & Technology Books, 2012.

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13

Chen, Chonyu. Incoherent sources for resonance Raman spectrometry. 1994.

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14

Nyquist, Richard A. Interpreting Infrared, Raman, and Nuclear Magnetic Resonance Spectra. Elsevier Science & Technology Books, 2001.

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15

Interpreting Infrared, Raman, and Nuclear Magnetic Resonance Spectra. Academic Press, 2001.

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16

Nyquist, Richard A. Interpreting Infrared, Raman, and Nuclear Magnetic Resonance Spectra: Two-Volume Set. Academic Press, 2001.

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17

Nyquist, Richard A. Interpreting Infrared, Raman, and Nuclear Magnetic Resonance Spectra: Two-Volume Set. Academic Press, 2001.

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18

Zucker, Jane Elisa. Raman scattering resonant with two-dimensional excitons in GaAs-AlGaAs heterostructures. 1985.

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19

Fuller, Jason Frank. Matrix isolation resonance Raman and cavity ringdown spectroscopy of species of astrophysical interest. 2001.

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20

Weimer, Heather Ann. Fourier transform infrared, Raman and electron spin resonance spectroscopy of matrix isolated species. 1998.

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21

Saito, R., A. Jorio, J. Jiang, K. Sasaki, G. Dresselhaus, and M. S. Dresselhaus. Optical properties of carbon nanotubes and nanographene. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533053.013.1.

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This article examines the optical properties of single-wall carbon nanotubes (SWNTs) and nanographene. It begins with an overview of the shape of graphene and nanotubes, along wit the use of Raman spectroscopy to study the structure and exciton physics of SWNTs. It then considers the basic definition of a carbon nanotube and graphene, focusing on the crystal structure of graphene and the electronic structure of SWNTs, before describing the experimental setup for confocal resonance Raman spectroscopy. It also discusses the process of resonance Raman scattering, double-resonance Raman scattering, and the Raman signals of a SWNT as well as the dispersion behavior of second-order Raman modes, the doping effect on the Kohn anomaly of phonons, and the elastic scattering of electrons and photons. The article concludes with an analysis of excitons in SWNTs and outlines future directions for research.
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22

Bell, Steven Ernest John. Transient electronic and resonance Raman spectroscopy of some photoexcited transition metal and metal-carbene complexes. 1987.

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23

Theoretical studies of resonance enhance simulated roman scattering (RESRS) of frequency doubled alexandrite laser wavelengths in cesium vapor: Semi-annual report for NASA grant NAG5-528. [Washington, DC: National Aeronautics and Space Administration, 1986.

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24

Semi-annual progress report ... entitled Resonance fluorescence in atmospheric gases, for the period September 16, 1985 - March 15, 1986. [College Park, MD]: Institute for Physical Science and Technology, University of Maryland, 1986.

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25

Vo-Dinh, Tuan, and Joseph Lakowicz. Plasmonics in Biology and Medicine V: 21-22 January 2008, San Jose, California, USA. SPIE, 2008.

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26

Theoretical studies of resonance enhance stimulated Raman scattering (RESRS) of frequency doubled alexandrite laser wavelengths in cesium vapor: Progress report to the National Aeronautics and Space Administration (NASA). [Washington, D.C: The Administration, 1986.

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27

Resonance And Aspect Matched Adaptive Radar Ramar. World Scientific Publishing Company, 2011.

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28

Spectroscopic Methods in Mineralogy and Geology (Reviews in Mineralogy,). Mineralogical Society of America, 1988.

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29

Kodali, Anil K., and Rohit Bhargava. Nanostructured probes to enhance optical and vibrational spectroscopic imaging for biomedical applications. Edited by A. V. Narlikar and Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533060.013.15.

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This article describes the use of nanostructured probes to enhance optical and vibrational spectroscopic imaging for biomedical applications. Engineered probes and surfaces are promising tools for enhancing signals for ultrasensitive detection of diseases like carcinoma. Two methods of interest are surface-enhanced infrared absorption (SEIRA) spectroscopy and surface-enhanced Raman spectroscopy (SERS) for IR and Raman modalities, respectively. SERS and SEIRA can be broadly categorized under a common modality termed surface-enhanced vibrational spectroscopy. This article first reviews various breakthrough findings reported in SERS and SEIRA, along with different types ofsubstrates and contrast agents used in realizing the enhancement and theories proposed to explain these findings. It then considers the configurations of nano-LAMPs and presents example results demonstrating their optical resonances and tunability. Finally, it evaluates a few techniques for fabricating multilayered nanoparticles and highlights some issues with respect to fabrication.
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