Voltage-induced phase transition in arrays of metallic nanodots: Computed transport and surface potential structure

F. Remacle; R. D. Levine

doi:10.1063/1.1583871

Voltage-induced phase transition in arrays of metallic nanodots: Computed transport and surface potential structure

F. Remacle^*, R. D. Levine

^*Corresponding author for this work

Institute of Chemistry

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

4 Scopus citations

Abstract

Voltage-induced phase transition in arrays of metallic quantum dots was investigated. Transport and surface potential structure were also computed. The analysis showed transition in the temperature dependence of the conductance at different voltages. It was found that at higher temperature the conductance was ohmic.

Original language	English
Pages (from-to)	4543-4545
Number of pages	3
Journal	Applied Physics Letters
Volume	82
Issue number	25
DOIs	https://doi.org/10.1063/1.1583871
State	Published - 23 Jun 2003

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title = "Voltage-induced phase transition in arrays of metallic nanodots: Computed transport and surface potential structure",

abstract = "Voltage-induced phase transition in arrays of metallic quantum dots was investigated. Transport and surface potential structure were also computed. The analysis showed transition in the temperature dependence of the conductance at different voltages. It was found that at higher temperature the conductance was ohmic.",

author = "F. Remacle and Levine, {R. D.}",

year = "2003",

month = jun,

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doi = "10.1063/1.1583871",

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AU - Levine, R. D.

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N2 - Voltage-induced phase transition in arrays of metallic quantum dots was investigated. Transport and surface potential structure were also computed. The analysis showed transition in the temperature dependence of the conductance at different voltages. It was found that at higher temperature the conductance was ohmic.

AB - Voltage-induced phase transition in arrays of metallic quantum dots was investigated. Transport and surface potential structure were also computed. The analysis showed transition in the temperature dependence of the conductance at different voltages. It was found that at higher temperature the conductance was ohmic.

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Voltage-induced phase transition in arrays of metallic nanodots: Computed transport and surface potential structure

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