S.A.M. acknowledges funding of the Heidelberg Graduate School of Mathematical and Com-
putational Methods for the Sciences (HGS MathComp) and Landesgraduiertenforderung
Baden-Wurttemberg. F.P. acknowledges funding of the VSC Research Center funded by the Austrian Federal Ministry of Science, Research, and Economy (bmwfw).
History
School
Science
Department
Chemistry
Published in
Journal of Physical Chemistry Letters
Volume
8
Issue
6
Pages
1205 - 1210
Citation
MEWES, S.A., PLASSER, F. and DREUW, A., 2017. Universal exciton size in organic polymers is determined by nonlocal orbital exchange in time-dependent density functional theory. Journal of Physical Chemistry Letters, 8(6), pp. 1205-1210.
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