We present photoluminescence studies as a function of temperature from a
series of conjugated polymers and a conjugated molecule with distinctly
different backbone conformations. The organic materials investigated here are:
planar methylated ladder type poly para-phenylene, semi-planar polyfluorene,
and non-planar para hexaphenyl. In the longer-chain polymers the
photoluminescence transition energies blue shift with increasing temperatures.
The conjugated molecules, on the other hand, red shift their transition
energies with increasing temperatures. Empirical models that explain the
temperature dependence of the band gap energies in inorganic semiconductors can
be extended to explain the temperature dependence of the transition energies in
conjugated molecules.Comment: 8 pages, 9 figure

Chandrasekhar, H. R.

Chandrasekhar, M.

de Freitas, P. Scandiucci

Guentner, R.

Guha, S.

Martin, C. M.

Rice, J. D.

Scherf, U.

Yau, Y. T.

English

arXiv

URL:http://link.aps.org/doi/10.1103/PhysRevB.67.125204
DOI:10.1103/PhysRevB.67.125204We present photoluminescence studies as a function of temperature from a series of conjugated polymers and a conjugated molecule all with distinctly different backbone conformations. The organic materials investigated here are planar methylated ladder-type poly para-phenylene, semi-planar polyfluorene, and nonplanar
para-hexaphenyl. In the long-chain-polymers the photoluminescence transition energies blueshift with increasing temperatures. In contrast, in the conjugated molecules transition energies redshift with increasing temperatures. Empirical models that explain the temperature dependence of the band gap energies in inorganic semiconductors are extended to explain the temperature dependence of the transition energies in conjugated molecules.The work at SMSU was partly funded by the Research Corporation Grant No. CC5332 and the Petroleum Research Fund Grant No. 35735-GB5. S.G. would also like to acknowledge the SMSU summer faculty support and the Faculty Research Grant. U.S. thanks SONY International Europe, Stuttgart, and the Deutsche Forschungsgemeinschaft~DFG! for financial support

Guha, Suchi

Martin, Christopher M., 1973-

Chandrasekhar, Meera

Chandrasekhar, Holalkere R.

Scanduicci de Freitas, P.

Scherf, Ullrich

University of Missouri: MOspace

Physical Review B

Temperature-dependent photoluminescence of organic semiconductors with varying backbone conformation

Temperature dependent photoluminescence of organic semiconductors with
  varying backbone conformation

Temperature dependent photoluminescence of organic semiconductors with varying backbone conformation

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