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LITERATURE CITED

  • 1
    Arago DF. Mem de L'Inst 1811; 12 (Part 1): 93.
  • 2
    Biot JB. Mem de L'Inst 1812; 13 (Part 1): 218.
  • 3
    Biot JB. Ann Chim 1818; 9: 382.
  • 4
    Drude P. The theory of optics. London: Longmans, Green; 1902.
  • 5
    Salvador P,Ciardelli F. An introduction to chiroptical techniques: basic principles, definitions and applications. In: CiardelliF,SalvadorP, editors. Optical rotatory dispersion and circular dichroism. London: Heyden; 1973. p 324.
  • 6
    Barron LD. Molecular light scattering and optical activity, 2nd ed. Cambridge: Cambridge University Press; 2004.
  • 7
    Biot JB. Melloni Compt Rend 1836; 2: 194.
  • 8
    Nafie LA,Dukor RK. Pharamaceutical applications of vibrational optical activity. In: PivonkaD,GriffithsPR,ChalmersJM, editors. Applications of vibrational spectroscopy in pharmaceutical research and development. Chichester: Wiley; 2007.
  • 9
    Nafie LA,Dukor RK. Vibrational optical activity in chiral analysis. In: BuschKW,BuschMA, editors. Chiral analysis. Elsevier; 2006. p 505544.
  • 10
    Nafie LA,Freedman TB. Vibrational optical activity theory. In: BerovaN,NakanishiK,WoodyRW, editors. Circular dichroism,2nd ed. New York: Wiley; 2000. p 97131.
  • 11
    Nafie LA. Infrared and Raman vibrational optical activity: theoretical and experimental aspects. Annu Rev Phys Chem 1997; 48: 357386.
  • 12
    Nafie LA,Dukor RK,Freedman TB. Vibrational circular dichroism. In: ChalmersJM,GriffithsPR, editors. Handbook of vibrational spectroscopy. Chichester: Wiley; 2002. p 731744.
  • 13
    Barron LD,Zhu F,Hecht L,Tranter GE,Isaacs NW. Raman optical activity: an incisive probe of molecular chirality and biomolecular structure. J Mol Struct 2007; 834–836: 716.
  • 14
    Barron LD,Hecht L,McColl IH,Blanch EW. Raman optical activity comes of age. Mol Phys 2004; 102: 731744.
  • 15
    Guo C,Shah RD,Dukor RK,Freedman TB,Cao X,Nafie LA. Fourier transform vibrational circular dichroism from 800 to 10,000 cm−1: near-IR-VCD spectral standards for terpenes and related molecules. Vib Spectrosc 2006; 42: 254272.
  • 16
    Nafie LA,Brinson BE,Cao X,Rice DA,Rahim OM,Dukor RK,Halas NJ. Near-infrared exicted Raman optical activity. Appl Spectrosc 2007; 61: 11031106.
  • 17
    Nafie LA,Che D. Theory and measurement of Raman optical activity. Adv Chem Phys 1993; 85 (Part 3): 105149.
  • 18
    Nafie LA. Theory of Raman scattering and Raman optical activity. Near resonance theory and levels of approximation. Theor Chem Acc 2008; 119: 3955.
  • 19
    Hecht L,Nafie LA. Linear polarization Raman optical activity: a new form of natural optical activity. Chem Phys Lett 1990; 174: 575582.
  • 20
    Katzin LI. J Phys Chem 1964; 68: 2367.
  • 21
    Chirgadze YN,Venyaminov SY,Lobachev VM. Optical rotatory dispersion of polypeptides in the near-infrared region. Biopolymers 1971; 10: 809820.
  • 22
    Jordanov B,Korte E-H,Schrader B. FTIR measurements of optical rotatory dispersion and circular dichroism. Microchim Acta 1988; 95: 275278.
  • 23
    Nafie LA. First International Conference on Vibrational Optical Activity. University of Manchester, England: 2008.
  • 24
    Rhee H,June Y-G,Lee J-S,Lee K-K,Ha J-H,Kim Z H,Jeon S-J,Cho M. Femtosecond characterization of vibrational optical activity of chiral molecules. Nature 2009; 458: 310313.
  • 25
    Kliger DS,Lewis JW,Randall CE. Polarized light in optics and spectroscopy. San Diego: Academic Press; 1990.
  • 26
    Nafie LA,Keiderling TA,Stephens PJ. Vibrational circular dichroism. J Am Chem Soc 1976; 98: 27152723.
  • 27
    Dukor RK,Nafie LA. Vibrational optical activity of pharmaceuticals and biomolecules. In: MeyersRA, editor. Encyclopedia of analytical chemistry: instrumentation and applications. Chichester: Wiley; 2000. p 662676.
  • 28
    Nafie LA. Dual polarization modulation: a real-time, spectral-multiplex separation of circular dichroism from linear birefringence spectral intensities. Appl Spectrosc 2000; 54: 16341645.
  • 29
    Frisch MJ,Trucks GW,Schlegel HB,Scuseria GE,Robb MA,Cheeseman JR,Montgomery JAJr,Vreven T,Kudin KN,Burant JC,Millam JM,Iyengar SS,Tomasi J,Barone V,Mennucci B,Cossi M,Scalmani G,Rega N,Petersson GA,Nakatsuji H,Hada M,Ehara M,Toyota K,Fukuda R,Hasegawa J,Ishida M,Nakajima T,Honda Y,Kitao O,Nakai H,Klene M,Li X,Knox JE,Hratchian HP,Cross JB,Adamo C,Jaramillo J,Gomperts R,Stratmann RE,Yazyev O,Austin AJ,Cammi R,Pomelli C,Ochterski JW,Ayala PY,Morokuma K,Voth GA,Salvador P,Dannenberg JJ,Zakrzewski VG,Dapprich S,Daniels AD,Strain MC,Farkas O,Malick DK,Rabuck AD,Raghavachari K,Foresman JB,Ortiz JV,Cui Q,Baboul AG,Clifford S,Cioslowski J,Stefanov BB,Liu G,Liashenko A,Piskorz P,Komaromi I,Martin RL,Fox DJ,Keith T,Al-Laham MA,Peng CY,Nanayakkara A,Challacombe M,Gill PMW,Johnson B,Chen W,Wong MW,Gonzalez C,Pople JA. Gaussian 03. Revision B. 03. Pittsburgh, PA: Gaussian; 2003.
  • 30
    Devlin FJ,Stephens PJ,Cheeseman JR,Frisch MJ. Ab initio prediction of vibrational absorption and circular dichroism spectra of chiral natural products using density functional theory: alpha.-pinene. J Phys Chem A 1997; 101: 99129924.
  • 31
    Smith DR,Kroll N. Negative refractive index in left-handed materials. Phys Rev Lett 2000; 85: 29332936.
  • 32
    Smith DR,Pendry JB,Wiltshire MCK. Metamaterials and negative refractive index. Science 2004; 305: 788792.
  • 33
    Pendry JB. A chiral route to negative refraction. Science 2004; 306: 13531355.
  • 34
    Devine TR,Keiderling TA. Magnetic vibrational circular dichroism of methyl halides in solution. J Chem Phys 1983; 79: 57965801.
  • 35
    Wang B,Keiderling TA. Measurements of the rotational and vibrational Zeeman effect of methane by magnetic vibrational circular dichroism. J Phys Chem 1994; 98: 39573963.