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W2059184493 startingPage "10076" @default.
W2059184493 abstract "Recent experimental studies have demonstrated that single molecules or a small number of self-assembled molecules can perform the basic functions of traditional electronic components, such as wires and diodes. In particular, molecular wires inserted into nanopores can be used as active elements for the fabrication of resonant tunneling diodes (RTDs), whose I/V characteristics reveal a Negative Differential Resistance (NDR) behavior (i.e., a negative slope in the I/V curve). Here, quantum-chemical calculations are used to describe on a qualitative basis the mechanism leading to NDR in polyphenylene-based molecular wires incorporating saturated spacers. This description is based on the characterization of the evolution of the wire electronic structure as a function of a static electric field applied along the molecular axis, which simulates the driving voltage between the two electrodes in the RTD devices. We illustrate that the main parameters controlling the NDR behavior can be modulated through molecular engineering of the wires." @default.
W2059184493 created "2016-06-24" @default.
W2059184493 creator A5021231690 @default.
W2059184493 creator A5032838497 @default.
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W2059184493 date "2001-09-25" @default.
W2059184493 modified "2023-09-24" @default.
W2059184493 title "Negative Differential Resistance Behavior in Conjugated Molecular Wires Incorporating Spacers: A Quantum-Chemical Description" @default.
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W2059184493 doi "https://doi.org/10.1021/ja010152+" @default.
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