A comparison study of electrode material effects on the molecular single electron transistor

Nasri, Abdelghaffar; Boubaker, Aïmen; Hafsi, B.; Khaldi, Wassim; Kalboussi, Adel

doi:10.1016/j.orgel.2017.05.033

Cited by 6 publications

(1 citation statement)

References 29 publications

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“…As several organic materials, pentacene has attracted considerable attention among researchers in the recent past due to its attractive properties, which make it frequently used in electronics components fabrication, such as organic field effect transistors, photodiodes, organic light-emitting diodes, Schottky barrier diodes, solar cells photovoltaics, and logic W. Khaldi gate applications [3]- [9]. Research in organic Schottky structures has received an important attention for many years, and especially in these recent years to develop a new generation of organic Schottky diodes.…”

Section: Introductionmentioning

confidence: 99%

Electrical Study of Pentacene-Based Metal–Semiconductor–Metal Structure: Schottky Barrier and Active Layer Thickness Effects

Khaldi

Boubaker

Nasri

et al. 2018

IEEE Trans. Electron Devices

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The impact of electrodes and active layer thickness on the current-voltage characteristics of Au/Pentacene/Al structure was studied using a physicallybased 2-D simulation by solving Poisson's, continuity, and drift diffusion equations. The main parameters required for simulation are extracted from the logarithmic representation of experimental current-voltage curves. The simulation results produce an excellent overlapping with the experimental data after including parameters previously found in our model. Finally, the simulation was used to better understand the physical processes together with mechanisms governing the efficiency of the device under investigation and to have a predictive behavior.

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Section: Introductionmentioning

confidence: 99%

Electrical Study of Pentacene-Based Metal–Semiconductor–Metal Structure: Schottky Barrier and Active Layer Thickness Effects

Khaldi

Boubaker

Nasri

et al. 2018

IEEE Trans. Electron Devices

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Electrostatic Gate Control in Molecular Transistors

Song

2018

Top Curr Chem (Z)

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Molecular transistors, in which single molecules serve as active channel components in a three-terminal device geometry, constitute the building blocks of molecular scale electronic circuits. To demonstrate such devices, a gate electrode has been incorporated in several test beds of molecular electronics. The frontier orbitals' alignments of a molecular transistor can be delicately tuned by modifying the molecular orbital energy with the gate electrode. In this review, we described electrostatic gate control of solid-state molecular transistors. In particular, we focus on recent experimental accomplishments in fabrication and characterization of molecular transistors.

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First principle study of single electron transistor based on metal-organic complex of dibenzothiophene

Srivastava

Khan

2018

Organic Electronics

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A comparison study of electrode material effects on the molecular single electron transistor

Cited by 6 publications

References 29 publications

Electrical Study of Pentacene-Based Metal–Semiconductor–Metal Structure: Schottky Barrier and Active Layer Thickness Effects

Electrical Study of Pentacene-Based Metal–Semiconductor–Metal Structure: Schottky Barrier and Active Layer Thickness Effects

Electrostatic Gate Control in Molecular Transistors

First principle study of single electron transistor based on metal-organic complex of dibenzothiophene

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