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The synthesis of thioacetate derivatized oligoanilines designed for molecular electronic device purposes is described.
TranSIESTA enables the molecular electronic device based on DFT to estimate the self-consistent electronic structure of nanomaterials within the three-dimensional electrodes at different chemical potentials.
In recent years, single-molecule junctions have attracted wide attention because of its potential application in nano-electronic and molecular electronic device [1 10].
The utilization of DNA hybridization and/or apoprotein cofactor interaction may allow a new strategy to construct a molecular electronic device.
The application simulations have been divided into four categories: mechanical andmaterials properties of nanotubes; nanotube heterojunctions as molecular electronic device components; nanoscale electromechanical systems and a laser-driven molecular motor; and nanotube-based nanolithography on silicon surfaces.
We have prepared Ag nanosphere/oligo phenyleneethynylene)/Ag sol (AgNS/OPE/Ag sol) and Ag nanowire/oligo phenyleneethynylene)/Ag sol (AgNW/OPE/Ag sol) sandwiches to simulate the architecture of a molecular electronic device.
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One key issue for the development of molecular electronic devices is to understand the electron transport of single-molecule junctions.
The fixed arrangement of molecular units on surface affords a uniform response to external stimuli and a predetermined distance for electron transfer on the electrode surface, which provides novel molecular electronic devices.
In a series of ground-breaking but controversial experiments interfacing switchable rotaxanes and catenanes with silicon-based electronics, molecular shuttles have been employed in solid-state molecular electronic devices.
Dr. James C. Ellenbogen, the principal investigator of the nanoelectronic computers project at the Mitre Corporation in McLean, Va., and a pioneer in molecular electronics, called the work "one of the key missing ingredients" in efforts to build molecular electronic devices.
Understanding the electron transport of single-molecule junctions is crucial for the development of molecular electronic devices [1 16].
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Justyna Jupowicz-Kozak
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