Your search keyword '"Kniprath, R."' showing total 4 results

1. Theory of the absorption and circular dichroism spectra of helical molecular aggregates.

Author

Eisfeld, A., Kniprath, R., and Briggs, J. S.

Subjects

*VIBRATIONAL circular dichroism, *CIRCULAR dichroism, *SET theory, *EXCITON theory, *OPTICAL polarization, *POLARIZATION of electromagnetic waves

Abstract

A theory of the electronic circular dichroism (CD) and optical rotatory dispersion (ORD) of infinite aggregates exhibiting cylindrical symmetry is presented in which, to the authors’ knowledge, for the first time vibrational structure is included explicitly. It is shown that, with the coherent exciton scattering approximation in the Green function approach, the detailed vibrational structure of the aggregate absorption. CD and ORD bands can be calculated from a knowledge of the electronic coupling and the monomer absorption line shape alone. Detailed model calculations for a single helix are made and the results are used to expose the origin of different spectral features. A good reproduction of experimental J-aggregate spectra is obtained, using the same electronic interaction to fit both absorption and CD spectral line shapes. The theory allows some prediction of aggregate geometry to be made, but it is shown that an unambiguous geometrical assignment can only be made where experimental spectra for light of different propagation directions with respect to the cylinder axis are available. [ABSTRACT FROM AUTHOR]

Published

2007

2. Data scattering in scanning tunneling spectroscopy

Author

Severin, N., primary, Groeper, S., additional, Kniprath, R., additional, Glowatzki, H., additional, Koch, N., additional, Sokolov, I.M., additional, and Rabe, J.P., additional

Published

2008

3. Internal Structure of Nanoporous TiO2/Polyion Thin Films Prepared by Layer-by-Layer Deposition

Author

Kniprath, R., primary, Duhm, S., additional, Glowatzki, H., additional, Koch, N., additional, Rogaschewski, S., additional, Rabe, J. P., additional, and Kirstein, S., additional

Published

2007

4. Tuning the ionization energy of organic semiconductor films: the role of intramolecular polar bonds.

Author

Salzmann I, Duhm S, Heimel G, Oehzelt M, Kniprath R, Johnson RL, Rabe JP, and Koch N

Abstract

For the prototypical conjugated organic molecules pentacene and perfluoropentacene, we demonstrate that the surface termination of ordered organic thin films with intramolecular polar bonds (e.g., -H versus -F) can be used to tune the ionization energy. The collective electrostatics of these oriented bonds also explains the pronounced orientation dependence of the ionization energy. Furthermore, mixing of differently terminated molecules on a molecular length scale allows continuously tuning the ionization energy of thin organic films between the limiting values of the two pure materials. Our study shows that surface engineering of organic semiconductors via adjusting the polarity of intramolecular bonds represents a generally viable alternative to the surface modification of substrates to control the energetics at organic/(in)organic interfaces.

Published

2008