Combined experimental and theoretical DFT study of molecular nanowires negative differential resistance and interaction with gold clusters

S. Záliš; I. Kratochvilova; A. Zambova; J. Mbindyo; T. E. Mallouk; T. S. Mayer

doi:10.1140/epje/i2005-10043-5

Combined experimental and theoretical DFT study of molecular nanowires negative differential resistance and interaction with gold clusters

S. Záliš, I. Kratochvilova, A. Zambova, J. Mbindyo, T. E. Mallouk, T. S. Mayer

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Electric-field-assisted assembly has been used to place rod-shaped metal nanowires containing 4-[[2-nitro-4-(phenylethynyl) phenyl] ethynyl] benzenthiol molecules onto lithographically defined metal pads. These junctions exhibited negative differential resistance. The quantum chemical approach was used to compare the properties of Au-bonded 4-[[2-nitro-4-(phenylethynyl) phenyl] ethynyl] benzenthiol molecule and a molecule that does not exhibit the negative differential resistance, Au-bonded 4-[[4-(phenylethynyl) phenyl] ethynyl] benzenthiol. The influence of the static electric field and charge variation were modelled for both systems.

Original language	English (US)
Pages (from-to)	201-206
Number of pages	6
Journal	European Physical Journal E
Volume	18
Issue number	2
DOIs	https://doi.org/10.1140/epje/i2005-10043-5
State	Published - Oct 2005

All Science Journal Classification (ASJC) codes

Biotechnology
Biophysics
General Chemistry
General Materials Science
Surfaces and Interfaces

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Cite this

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title = "Combined experimental and theoretical DFT study of molecular nanowires negative differential resistance and interaction with gold clusters",

abstract = "Electric-field-assisted assembly has been used to place rod-shaped metal nanowires containing 4-[[2-nitro-4-(phenylethynyl) phenyl] ethynyl] benzenthiol molecules onto lithographically defined metal pads. These junctions exhibited negative differential resistance. The quantum chemical approach was used to compare the properties of Au-bonded 4-[[2-nitro-4-(phenylethynyl) phenyl] ethynyl] benzenthiol molecule and a molecule that does not exhibit the negative differential resistance, Au-bonded 4-[[4-(phenylethynyl) phenyl] ethynyl] benzenthiol. The influence of the static electric field and charge variation were modelled for both systems.",

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T1 - Combined experimental and theoretical DFT study of molecular nanowires negative differential resistance and interaction with gold clusters

AU - Záliš, S.

AU - Kratochvilova, I.

AU - Zambova, A.

AU - Mbindyo, J.

AU - Mallouk, T. E.

AU - Mayer, T. S.

PY - 2005/10

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N2 - Electric-field-assisted assembly has been used to place rod-shaped metal nanowires containing 4-[[2-nitro-4-(phenylethynyl) phenyl] ethynyl] benzenthiol molecules onto lithographically defined metal pads. These junctions exhibited negative differential resistance. The quantum chemical approach was used to compare the properties of Au-bonded 4-[[2-nitro-4-(phenylethynyl) phenyl] ethynyl] benzenthiol molecule and a molecule that does not exhibit the negative differential resistance, Au-bonded 4-[[4-(phenylethynyl) phenyl] ethynyl] benzenthiol. The influence of the static electric field and charge variation were modelled for both systems.

AB - Electric-field-assisted assembly has been used to place rod-shaped metal nanowires containing 4-[[2-nitro-4-(phenylethynyl) phenyl] ethynyl] benzenthiol molecules onto lithographically defined metal pads. These junctions exhibited negative differential resistance. The quantum chemical approach was used to compare the properties of Au-bonded 4-[[2-nitro-4-(phenylethynyl) phenyl] ethynyl] benzenthiol molecule and a molecule that does not exhibit the negative differential resistance, Au-bonded 4-[[4-(phenylethynyl) phenyl] ethynyl] benzenthiol. The influence of the static electric field and charge variation were modelled for both systems.

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Combined experimental and theoretical DFT study of molecular nanowires negative differential resistance and interaction with gold clusters

Abstract

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