%0 Journal Article %1 AK41 %A Pabst, Mathias %A Sundholm, Dage %A Köhn, Andreas %D 2012 %J J. Phys. Chem. C %K chemie imported koehn köhn from:alexanderdenzel theoretische stuttgart theochem %N 29 %P 15203–15217 %R 10.1021/jp302010a %T Ab initio studies of triplet-state properties for organic semiconductor molecules %U http://dx.doi.org/10.1021/jp302010a %V 116 %X Triplet-triplet annihilation (TTA) leads to a reduced efficiency of organic light emitting diodes (OLEDs) at high current densities. Spacial confinement of the triplet excitons, which is mainly dependent on triplet energy differences, can reduce the TTA rate. Thus, a deliberate choice of the organic semiconductor materials with particular attention to their triplet energies can help to considerably increase the device efficiency. Organic solid-state lasers are on the other hand efficiently quenched by singlet-triplet annihilation (STA), which is closely related to the triplet-triplet absorption of the organic semiconductors. To establish a useful set of parameters related to the processes in organic semiconducting devices, we provide theoretical estimates for the triplet energy of 31 organic semiconductor molecules using state-of-the art ab initio quantum chemical methods. For a subset of 22 molecules the triplet-triplet absorption spectra were calculated, as well. We also discuss related features like localizations of excitations to molecular fragments, driven by the structural changes of the molecules in the excited triplet state. The calculated excited-state properties can assist experimentalists and serve as input parameters in simulations of organic electronics. %@ 0023-2149 (Print)$\backslash$r0023-2149 (Linking)

@article{AK41, abstract = {Triplet-triplet annihilation (TTA) leads to a reduced efficiency of organic light emitting diodes (OLEDs) at high current densities. Spacial confinement of the triplet excitons, which is mainly dependent on triplet energy differences, can reduce the TTA rate. Thus, a deliberate choice of the organic semiconductor materials with particular attention to their triplet energies can help to considerably increase the device efficiency. Organic solid-state lasers are on the other hand efficiently quenched by singlet-triplet annihilation (STA), which is closely related to the triplet-triplet absorption of the organic semiconductors. To establish a useful set of parameters related to the processes in organic semiconducting devices, we provide theoretical estimates for the triplet energy of 31 organic semiconductor molecules using state-of-the art ab initio quantum chemical methods. For a subset of 22 molecules the triplet-triplet absorption spectra were calculated, as well. We also discuss related features like localizations of excitations to molecular fragments, driven by the structural changes of the molecules in the excited triplet state. The calculated excited-state properties can assist experimentalists and serve as input parameters in simulations of organic electronics.}, added-at = {2019-02-06T13:16:26.000+0100}, author = {Pabst, Mathias and Sundholm, Dage and K{\"{o}}hn, Andreas}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/230b58211c07f4df16d5eef9edfd11f0e/theochem}, doi = {10.1021/jp302010a}, interhash = {276ff9284c97b5ade12cede602595551}, intrahash = {30b58211c07f4df16d5eef9edfd11f0e}, isbn = {0023-2149 (Print)$\backslash$r0023-2149 (Linking)}, issn = {19327447}, journal = {J. Phys. Chem. C}, keywords = {chemie imported koehn köhn from:alexanderdenzel theoretische stuttgart theochem}, number = 29, pages = {15203–15217}, pmid = {22734677}, timestamp = {2019-02-06T12:16:26.000+0100}, title = {{Ab initio studies of triplet-state properties for organic semiconductor molecules}}, url = {http://dx.doi.org/10.1021/jp302010a}, volume = 116, year = 2012 }