Electric-field-induced conductance switching in FeCo Prussian blue analogues

Osamu Sato; Tomoko Kawakami; Masanobu Kimura; Shoko Hishiya; Shoichi Kubo; Yasuaki Einaga

doi:10.1021/ja046329s

Electric-field-induced conductance switching in FeCo Prussian blue analogues

Osamu Sato, Tomoko Kawakami, Masanobu Kimura, Shoko Hishiya, Shoichi Kubo, Yasuaki Einaga

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

107 Citations (Scopus)

Abstract

FeCo Prussian blue analogues, which are known as typical molecule-based magnets, exhibited abrupt conductance switching by applying a high electric field as well as by varying the temperature. The current density versus electric field (J-E) curves of FeCo Prussian blue with Rb cations in interstitial sites shows so-called negative resistance effects at electric fields higher than the threshold voltage. This means that the FeCo Prussian blue analogues are multiproperty materials in the sense that their conducting, magnetic, and optical properties can be reversibly controlled by certain external stimuli.

Original language	English
Pages (from-to)	13176-13177
Number of pages	2
Journal	Journal of the American Chemical Society
Volume	126
Issue number	41
DOIs	https://doi.org/10.1021/ja046329s
Publication status	Published - Oct 20 2004
Externally published	Yes

All Science Journal Classification (ASJC) codes

Catalysis
Chemistry(all)
Biochemistry
Colloid and Surface Chemistry

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10.1021/ja046329s

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abstract = "FeCo Prussian blue analogues, which are known as typical molecule-based magnets, exhibited abrupt conductance switching by applying a high electric field as well as by varying the temperature. The current density versus electric field (J-E) curves of FeCo Prussian blue with Rb cations in interstitial sites shows so-called negative resistance effects at electric fields higher than the threshold voltage. This means that the FeCo Prussian blue analogues are multiproperty materials in the sense that their conducting, magnetic, and optical properties can be reversibly controlled by certain external stimuli.",

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AU - Sato, Osamu

AU - Kawakami, Tomoko

AU - Kimura, Masanobu

AU - Hishiya, Shoko

AU - Kubo, Shoichi

AU - Einaga, Yasuaki

PY - 2004/10/20

Y1 - 2004/10/20

N2 - FeCo Prussian blue analogues, which are known as typical molecule-based magnets, exhibited abrupt conductance switching by applying a high electric field as well as by varying the temperature. The current density versus electric field (J-E) curves of FeCo Prussian blue with Rb cations in interstitial sites shows so-called negative resistance effects at electric fields higher than the threshold voltage. This means that the FeCo Prussian blue analogues are multiproperty materials in the sense that their conducting, magnetic, and optical properties can be reversibly controlled by certain external stimuli.

AB - FeCo Prussian blue analogues, which are known as typical molecule-based magnets, exhibited abrupt conductance switching by applying a high electric field as well as by varying the temperature. The current density versus electric field (J-E) curves of FeCo Prussian blue with Rb cations in interstitial sites shows so-called negative resistance effects at electric fields higher than the threshold voltage. This means that the FeCo Prussian blue analogues are multiproperty materials in the sense that their conducting, magnetic, and optical properties can be reversibly controlled by certain external stimuli.

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Electric-field-induced conductance switching in FeCo Prussian blue analogues

Abstract

All Science Journal Classification (ASJC) codes

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