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Transport and Optical Gaps in Amorphous Organic Molecular Materials.


ABSTRACT: The standard procedure to identify the hole- or electron-acceptor character of amorphous organic materials used in OLEDs is to look at the values of a pair of basic parameters, namely, the ionization potential (IP) and the electron affinity (EA). Recently, using published experimental data, the present authors showed that only IP matters, i.e., materials with IP > 5.7 (<5.7) showing electron (hole) acceptor character. Only three materials fail to obey this rule. This work reports ab initio calculations of IP and EA of those materials plus two materials that behave according to that rule, following a route which describes the organic material by means of a single molecule embedded in a polarizable continuum medium (PCM) characterized by a dielectric constant ? . PCM allows to approximately describe the extended character of the system. This "compound" system was treated within density functional theory (DFT) using several combinations of the functional/basis set. In the preset work ? was derived by assuming Koopmans' theorem to hold. Optimal ? values are in the range 4.4?5.0, close to what is expected for this material family. It was assumed that the optical gap corresponds to the excited state with a large oscillator strength among those with the lowest energies, calculated with time-dependent DFT. Calculated exciton energies were in the range 0.76?1.06 eV, and optical gaps varied from 3.37 up to 4.50 eV. The results are compared with experimental data.

SUBMITTER: San-Fabian E 

PROVIDER: S-EPMC6384593 | biostudies-literature | 2019 Feb

REPOSITORIES: biostudies-literature

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Transport and Optical Gaps in Amorphous Organic Molecular Materials.

San-Fabián Emilio E   Louis Enrique E   Díaz-García María A MA   Chiappe Guillermo G   Vergés José A JA  

Molecules (Basel, Switzerland) 20190209 3


The standard procedure to identify the hole- or electron-acceptor character of amorphous organic materials used in OLEDs is to look at the values of a pair of basic parameters, namely, the ionization potential (IP) and the electron affinity (EA). Recently, using published experimental data, the present authors showed that only IP matters, i.e., materials with IP > 5.7 (<5.7) showing electron (hole) acceptor character. Only three materials fail to obey this rule. This work reports ab initio calcu  ...[more]

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