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Systematics in the IR Absorptions of Odd Carbon Chains 21 st of June 2005, Columbus Dmitry Strelnikov, Roman Reusch and Wolfgang Krätschmer Max-Planck-Institut.

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Presentation on theme: "Systematics in the IR Absorptions of Odd Carbon Chains 21 st of June 2005, Columbus Dmitry Strelnikov, Roman Reusch and Wolfgang Krätschmer Max-Planck-Institut."— Presentation transcript:

1 Systematics in the IR Absorptions of Odd Carbon Chains 21 st of June 2005, Columbus Dmitry Strelnikov, Roman Reusch and Wolfgang Krätschmer Max-Planck-Institut für Kernphysik, Heidelberg, Germany

2 Experimental Setup

3 Matrix-isolated carbon molecules Carbon vapor molecules as deposited in cryogenic Ne-, Ar- or Kr-matrices Chain growth by matrix annealing UV/Vis-spectra before and after annealing in Ar IR-spectra before and after annealing in Ar

4 Strategy □Comparison of IR and UV/Vis absorptions of C n in Ar and O 2 matrices □Method´s test: Selective oxidation of C n with known IR and UV/Vis absorption spectra □Method´s application: Selective oxidation of C n with unknown IR but known UV/Vis absorptions □Looking for systematics in the IR spectra of long C 2n+1 molecules 

5 D.Forney, P.Freivogel, M.Grutter and J.P.Maier, J. Chem. Phys., 1996 C n absorbtions in Ar matrix, UV-vis spectrumC n absorbtions in Ar and O 2 matrices, UV-vis spectrum

6 A. Van Orden and R. Saykally; Chem. Rev. 1998 C n absorbtions in Ar and O 2 matrices, IR spectrumC n absorbtions in O 2 matrix, IR spectrumC n absorbtions in Ar matrix, IR spectrum

7 Isotopic substitution of matrix oxygen. The way to distinguish pure carbon molecules and oxides.

8 □Comparison of IR and UV/Vis absorptions of C n in Ar and O 2 matrices □Method´s test: Selective oxidation of C n with known IR and UV/Vis absorption spectra □Method´s application: Selective oxidation of C n with unknown IR but known UV/Vis absorptions □Looking for systematics in the IR spectra of long C 2n+1 molecules  

9 Selective LASER-induced oxidation of carbon chains in O 2 - matrices. Difference in absorption before and after LASER exposure UV-vis IR

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11 □Comparison of IR and UV/Vis absorptions of C n in Ar and O 2 matrices □Method´s test: Selective oxidation of C 9, C 11, C 13 having known IR and UV/Vis absorption spectra □Method´s application: Selective oxidation of C n with unknown IR but known UV/Vis absorptions □Looking for systematics in the IR spectra of long C 2n+1 molecules   

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16 □Comparison of IR and UV/Vis absorptions of C n in Ar and O 2 matrices □Method´s test: Selective oxidation of C n with known IR and UV/Vis absorption spectra □Method´s application: Selective oxidation of C n with unknown IR but known UV/Vis absorptions □Looking for systematics in the IR spectra of long C 2n+1 molecules    

17 IR-absorptions of carbon molecules in Ar, 30K Where are the (3N-5)/2 IR-active modes ?

18 PM3, DFT(b3lyp/6-311G(d)) - intensity of the k-th vibrational mode  - dipole moment, x k, s k - Cartesian and normal coordinates, q i - Mulliken charges, L i,k – matrix of vibrational eigenvectors as columns ( ) Intensities of infrared absorptions of long odd-numbered carbon chain molecules

19 Red and blue Ne-to-Ar (gas-to-Ar) matrix- shifts of the totally alternating vibration for long odd-numbered carbon chains C n in gas phase * ** *- Prediction

20 Conclusion The method of selective laser-induced oxidation works and turned out to be useful for the characterization of odd linear carbon chains. A regularity in the IR-absorptions of linear C 2n+1 species was established.

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22 Freivogel P., Grutter,M., Forney,D., Maier,J.P.; Chem.Phys. 1997

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24 T.F. Giesen et al.; Science, 1994

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26 1809 cm -1, gas phase T.F. Giesen et al.; Science, 1994

27 Crystal structures of solid oxygen <23.8K 43.8-51K 23.8-43.8K G.C. De Fotis, Phys. Rev. B, 1981

28 References [1] T. Wakabayashi et al.; CP590, Nanonetwork Materials,AIP, p. 513 (2001) [2] Grutter et al.; J. Chem. Phys. 111, p. 7397 (1999) [3] J.P. Maier; Chemical Society Reviews, 1997, 21 (1997) [4] Freivogel P., Grutter,M., Forney,D., Maier,J.P.; Chem.Phys. 216, p. 401 (1997) [5] T.F. Giesen et al.; Science 265, p. 756 (1995) [6] Presilla-Marquez J.D., Harper J., Sheehy J.A., Carrick P.G., Larson C.W.; Chem.Phys.Lett. 300, p. 719 (1999). [7] Wang S.L., Rittby C.M., and Graham W.R.M.; J. Chem. Phys. 112, p. 1457 (2000).

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