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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10.1140/epje/i2005-10043-5

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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year = "2005",

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language = "English (US)",

volume = "18",

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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

Y1 - 2005/10

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

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