Effect of the heteroatom-separation on the electron transport behavior of heteroacene-junctions

[Display omitted] •The electron transfer behaviors appear diverse for heteroacenes-based junctions.•The conductance can be modulated by the separation between the two S-heteroatoms.•With increasing the separation, the junction current is drastically increased.•The current of 7,14-DPA is almost hundr...

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Published inComputational materials science Vol. 162; pp. 124 - 132
Main Authors Zhang, Liuyue, Chen, Zhidong, He, Yuanyuan, Durkan, Colm, Wang, Nan, Zhao, Jianwei, Cheng, Na
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2019
Subjects
Effective electron-transport pathway
Quantum interference
Quinoid conjugation
Separation effect
Separation effect
Effective electron-transport pathway
Quantum interference
Quinoid conjugation
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Summary:[Display omitted] •The electron transfer behaviors appear diverse for heteroacenes-based junctions.•The conductance can be modulated by the separation between the two S-heteroatoms.•With increasing the separation, the junction current is drastically increased.•The current of 7,14-DPA is almost hundred times over that of 5,12-DPA. The electron transport behavior through a series of symmetric and asymmetric dithiapentacenes (DPA) dithiolate junctions are theoretically investigated on the basis of density functional theory together with non-equilibrium Green’s function methods. The current-voltage characteristics of a series of DPAs with different separation of the heteroatoms have been calculated. The results indicate that the current correlates with the energy levels, the spatial distribution of molecular orbitals, and the transmission probability within the bias window. The separation of the two heteroatoms leads to an extension of the central quinoid structure, which forms the effective electron transport pathway. It can also lower the energy levels of the molecular orbitals and shift the transmission peaks towards the Fermi level, leading to a dramatic increase in the junction conductance. In particular, the current through 6,13-DPA is almost one hundred times greater than that through 5,12-DPA. Upon increasing the heteroatom separation, the junction current then tends towards a specific limit.
ISSN:0927-0256
1879-0801
DOI:10.1016/j.commatsci.2019.02.029