TY - JOUR
T1 - Bis-aryl substituted dioxaborines as electron-transport materials
T2 - A comparative density functional theory investigation with oxadiazoles and siloles
AU - Risko, C.
AU - Zojer, E.
AU - Brocorens, P.
AU - Marder, S. R.
AU - Brédas, J. L.
N1 - Funding Information:
This work has been partly supported by the National Science Foundation (through the STC Program under Award DMR-0120967 and Grant CHE-0342321) and the Office of Naval Research.
PY - 2005/6/27
Y1 - 2005/6/27
N2 - We report on a detailed quantum-chemical comparison of the electronic structures, vertical electron affinities, and intramolecular reorganization energies for bis-aryl substituted dioxaborine, oxadiazole, and silole derivatives. The results indicate that the HOMO and LUMO energies of the substituted compounds can be tuned on the order of 2-3 eV via minor changes in the substitution patterns, with the HOMO and LUMO levels for the dioxaborine derivatives consistently the most energy stabilized. Additionally, large vertical electron affinities and comparable intramolecular reorganization energies confirm that dioxaborine systems are interesting candidates for electron transport materials.
AB - We report on a detailed quantum-chemical comparison of the electronic structures, vertical electron affinities, and intramolecular reorganization energies for bis-aryl substituted dioxaborine, oxadiazole, and silole derivatives. The results indicate that the HOMO and LUMO energies of the substituted compounds can be tuned on the order of 2-3 eV via minor changes in the substitution patterns, with the HOMO and LUMO levels for the dioxaborine derivatives consistently the most energy stabilized. Additionally, large vertical electron affinities and comparable intramolecular reorganization energies confirm that dioxaborine systems are interesting candidates for electron transport materials.
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U2 - 10.1016/j.chemphys.2004.12.020
DO - 10.1016/j.chemphys.2004.12.020
M3 - Article
AN - SCOPUS:17044392609
SN - 0301-0104
VL - 313
SP - 151
EP - 157
JO - Chemical Physics
JF - Chemical Physics
IS - 1-3
ER -