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Step-scan Fourier transform infrared absorption difference time-resolved spectroscopy studies of excited state decay kinetics and electronic structure of low-spin d6 transition metal polypyridine complexes with 10 nanosecond time resolution

Publication ,  Journal Article
Smith, GD; Chen, P; Chao, JL; Omberg, KM; Kavaliunas, DA; Treadway, JA; Meyer, TJ; Palmer, RA
Published in: Laser Chemistry
January 1, 1999

Step-scan Fourier transform absorption difference time-resolved spectroscopy (S2FTIR ΔA TRS) has been used to collect mid-IR time-resolved infrared spectra of the transient electronic excited states of polypyridine transition metal complexes with 10ns time resolution. The time-resolved data can be used for kinetic analysis or to generate "snapshots" of the lowest lying excited state. Shifts of vibrational bands in the excited state relative to the ground state can be used to infer significant details of the electronic structure of the excited state. The multiplex advantage of the FTIR technique allows a wide variety of vibrational bands to be analyzed for this purpose. In the example illustrated, the shift of the ester ν(CO) band in {Ru(bpy)[4,4′-(COOEt)2bpy]2}2+ compared to those in related complexes has been used to address the question of electron delocalization in the excited state. © 1999 OPA (Overseas Publishers Association) N.V. Published by license under the Harwood Academic Publishers imprint, part of The Gordon and Breach Publishing Group.

Duke Scholars

Published In

Laser Chemistry

DOI

ISSN

0278-6273

Publication Date

January 1, 1999

Volume

19

Issue

1-4

Start / End Page

291 / 298

Related Subject Headings

  • Optoelectronics & Photonics
  • 0205 Optical Physics
 

Citation

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Smith, G. D., Chen, P., Chao, J. L., Omberg, K. M., Kavaliunas, D. A., Treadway, J. A., … Palmer, R. A. (1999). Step-scan Fourier transform infrared absorption difference time-resolved spectroscopy studies of excited state decay kinetics and electronic structure of low-spin d6 transition metal polypyridine complexes with 10 nanosecond time resolution. Laser Chemistry, 19(1–4), 291–298. https://doi.org/10.1155/1999/94731
Smith, G. D., P. Chen, J. L. Chao, K. M. Omberg, D. A. Kavaliunas, J. A. Treadway, T. J. Meyer, and R. A. Palmer. “Step-scan Fourier transform infrared absorption difference time-resolved spectroscopy studies of excited state decay kinetics and electronic structure of low-spin d6 transition metal polypyridine complexes with 10 nanosecond time resolution.” Laser Chemistry 19, no. 1–4 (January 1, 1999): 291–98. https://doi.org/10.1155/1999/94731.
Journal cover image

Published In

Laser Chemistry

DOI

ISSN

0278-6273

Publication Date

January 1, 1999

Volume

19

Issue

1-4

Start / End Page

291 / 298

Related Subject Headings

  • Optoelectronics & Photonics
  • 0205 Optical Physics