Interaction of organic surfaces with active species in the high-vacuum environment

V. Podzorov; E. Menard; S. Pereversev; B. Yakshinsky; T. Madey; J. A. Rogers; M. E. Gershenson

doi:10.1063/1.2035323

Interaction of organic surfaces with active species in the high-vacuum environment

V. Podzorov, E. Menard, S. Pereversev, B. Yakshinsky, T. Madey, J. A. Rogers, M. E. Gershenson

Materials Science and Engineering

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

Abstract

Using single-crystal organic field-effect transistors with the conduction channel exposed to environmental agents, we have observed generation of electronic defects at the organic surface in the high-vacuum environment. Rapid decrease of the source-drain current of an operating device is observed upon exposure of the channel to the species generated by high-vacuum gauges. We attribute this effect to interaction of the organic surface with electrically neutral free radicals produced in the process of hydrocarbon cracking on hot filaments with a relatively low activation energy Ea ∼2.5 eV (240 kJmol). The reported results might be important for optimizing the high-vacuum processes of fabrication and characterization of a wide range of organic and molecular electronic devices.

Original language	English (US)
Article number	093505
Journal	Applied Physics Letters
Volume	87
Issue number	9
DOIs	https://doi.org/10.1063/1.2035323
State	Published - Aug 29 2005

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Physics and Astronomy (miscellaneous)

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10.1063/1.2035323

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abstract = "Using single-crystal organic field-effect transistors with the conduction channel exposed to environmental agents, we have observed generation of electronic defects at the organic surface in the high-vacuum environment. Rapid decrease of the source-drain current of an operating device is observed upon exposure of the channel to the species generated by high-vacuum gauges. We attribute this effect to interaction of the organic surface with electrically neutral free radicals produced in the process of hydrocarbon cracking on hot filaments with a relatively low activation energy Ea ∼2.5 eV (240 kJmol). The reported results might be important for optimizing the high-vacuum processes of fabrication and characterization of a wide range of organic and molecular electronic devices.",

author = "V. Podzorov and E. Menard and S. Pereversev and B. Yakshinsky and T. Madey and Rogers, {J. A.} and Gershenson, {M. E.}",

note = "Funding Information: This work has been supported by NSF Grant Nos. DMR-0405208, ECS-0437932, and CHE 0315209. We thank E. Garfunkel and Y. Chabal for helpful discussions. ",

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AU - Podzorov, V.

AU - Menard, E.

AU - Pereversev, S.

AU - Yakshinsky, B.

AU - Madey, T.

AU - Rogers, J. A.

AU - Gershenson, M. E.

N1 - Funding Information: This work has been supported by NSF Grant Nos. DMR-0405208, ECS-0437932, and CHE 0315209. We thank E. Garfunkel and Y. Chabal for helpful discussions.

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Y1 - 2005/8/29

N2 - Using single-crystal organic field-effect transistors with the conduction channel exposed to environmental agents, we have observed generation of electronic defects at the organic surface in the high-vacuum environment. Rapid decrease of the source-drain current of an operating device is observed upon exposure of the channel to the species generated by high-vacuum gauges. We attribute this effect to interaction of the organic surface with electrically neutral free radicals produced in the process of hydrocarbon cracking on hot filaments with a relatively low activation energy Ea ∼2.5 eV (240 kJmol). The reported results might be important for optimizing the high-vacuum processes of fabrication and characterization of a wide range of organic and molecular electronic devices.

AB - Using single-crystal organic field-effect transistors with the conduction channel exposed to environmental agents, we have observed generation of electronic defects at the organic surface in the high-vacuum environment. Rapid decrease of the source-drain current of an operating device is observed upon exposure of the channel to the species generated by high-vacuum gauges. We attribute this effect to interaction of the organic surface with electrically neutral free radicals produced in the process of hydrocarbon cracking on hot filaments with a relatively low activation energy Ea ∼2.5 eV (240 kJmol). The reported results might be important for optimizing the high-vacuum processes of fabrication and characterization of a wide range of organic and molecular electronic devices.

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Interaction of organic surfaces with active species in the high-vacuum environment

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