A [2]catenane-based solid state electronically reconfigurable switch

C. P. Collier; G. Mattersteig; E. W. Wong; Y. Luo; K. Beverly; J. Sampaio; F. M. Raymo; J. F. Stoddart; J. R. Heath

doi:10.1126/science.289.5482.1172

A [2]catenane-based solid state electronically reconfigurable switch

C. P. Collier, G. Mattersteig, E. W. Wong, Y. Luo, K. Beverly, J. Sampaio, F. M. Raymo, J. F. Stoddart, J. R. Heath

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

1275 Scopus citations

Abstract

A solid state, electronically addressable, bistable [2]catenane-based molecular switching device was fabricated from a single monolayer of the [2]catenane, anchored with phospholipid counterions, and sandwiched between an n-type polycrystalline silicon bottom electrode and a metallic top electrode. The device exhibits hysteretic (bistable) current/voltage characteristics. The switch is opened at +2 volts, closed at -2 volts, and read at -0.1 volt and may be recycled many times under ambient conditions. A mechanochemical mechanism for the action of the switch is presented and shown to be consistent with temperature-dependent measurements of the device operation.

Original language	English
Pages (from-to)	1172-1175
Number of pages	4
Journal	Science
Volume	289
Issue number	5482
DOIs	https://doi.org/10.1126/science.289.5482.1172
State	Published - Aug 18 2000
Externally published	Yes

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title = "A [2]catenane-based solid state electronically reconfigurable switch",

abstract = "A solid state, electronically addressable, bistable [2]catenane-based molecular switching device was fabricated from a single monolayer of the [2]catenane, anchored with phospholipid counterions, and sandwiched between an n-type polycrystalline silicon bottom electrode and a metallic top electrode. The device exhibits hysteretic (bistable) current/voltage characteristics. The switch is opened at +2 volts, closed at -2 volts, and read at -0.1 volt and may be recycled many times under ambient conditions. A mechanochemical mechanism for the action of the switch is presented and shown to be consistent with temperature-dependent measurements of the device operation.",

author = "Collier, {C. P.} and G. Mattersteig and Wong, {E. W.} and Y. Luo and K. Beverly and J. Sampaio and Raymo, {F. M.} and Stoddart, {J. F.} and Heath, {J. R.}",

year = "2000",

month = aug,

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doi = "10.1126/science.289.5482.1172",

language = "English",

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T1 - A [2]catenane-based solid state electronically reconfigurable switch

AU - Collier, C. P.

AU - Mattersteig, G.

AU - Wong, E. W.

AU - Luo, Y.

AU - Beverly, K.

AU - Sampaio, J.

AU - Raymo, F. M.

AU - Stoddart, J. F.

AU - Heath, J. R.

PY - 2000/8/18

Y1 - 2000/8/18

N2 - A solid state, electronically addressable, bistable [2]catenane-based molecular switching device was fabricated from a single monolayer of the [2]catenane, anchored with phospholipid counterions, and sandwiched between an n-type polycrystalline silicon bottom electrode and a metallic top electrode. The device exhibits hysteretic (bistable) current/voltage characteristics. The switch is opened at +2 volts, closed at -2 volts, and read at -0.1 volt and may be recycled many times under ambient conditions. A mechanochemical mechanism for the action of the switch is presented and shown to be consistent with temperature-dependent measurements of the device operation.

AB - A solid state, electronically addressable, bistable [2]catenane-based molecular switching device was fabricated from a single monolayer of the [2]catenane, anchored with phospholipid counterions, and sandwiched between an n-type polycrystalline silicon bottom electrode and a metallic top electrode. The device exhibits hysteretic (bistable) current/voltage characteristics. The switch is opened at +2 volts, closed at -2 volts, and read at -0.1 volt and may be recycled many times under ambient conditions. A mechanochemical mechanism for the action of the switch is presented and shown to be consistent with temperature-dependent measurements of the device operation.

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JO - Science

JF - Science

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ER -

A [2]catenane-based solid state electronically reconfigurable switch

Abstract

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