An electrochemical color-switchable RGB dye: Tristable [2]catenane

Wei Qiao Deng; Amar H. Flood; J. Fraser Stoddart; William A. Goddard

doi:10.1021/ja0431298

An electrochemical color-switchable RGB dye: Tristable [2]catenane

Wei Qiao Deng
, Amar H. Flood
, J. Fraser Stoddart
, William A. Goddard

Division of Chemistry and Chemical Engineering
University of California, Los Angeles

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

Abstract

We propose a design for an electrochemically driven RGB dye based on a tristable [2]catenane, in which the color of the molecule can be switched between Red, Green, and Blue by merely changing voltage. Based on DFT calculations, we conclude that the tristable [2]catenane should consist of a CBPQT⁴⁺ ring interlocked with a polyether macrocyle containing DNP (red), TTF (green), and FBZD (blue) units as the tunable RGB color-generating donors. Thus, at controllable voltages 0, V₁, and V₂, the [2]catenane is expected to display green, blue, and red colors, respectively. The advent of these RGB tristable molecules may have potential applications in low cost paperlike electronic displays.

Original language	English
Pages (from-to)	15994-15995
Number of pages	2
Journal	Journal of the American Chemical Society
Volume	127
Issue number	46
DOIs	https://doi.org/10.1021/ja0431298
Publication status	Published - 23 Nov 2005
Externally published	Yes

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title = "An electrochemical color-switchable RGB dye: Tristable [2]catenane",

abstract = "We propose a design for an electrochemically driven RGB dye based on a tristable [2]catenane, in which the color of the molecule can be switched between Red, Green, and Blue by merely changing voltage. Based on DFT calculations, we conclude that the tristable [2]catenane should consist of a CBPQT4+ ring interlocked with a polyether macrocyle containing DNP (red), TTF (green), and FBZD (blue) units as the tunable RGB color-generating donors. Thus, at controllable voltages 0, V1, and V2, the [2]catenane is expected to display green, blue, and red colors, respectively. The advent of these RGB tristable molecules may have potential applications in low cost paperlike electronic displays.",

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AU - Goddard, William A.

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AB - We propose a design for an electrochemically driven RGB dye based on a tristable [2]catenane, in which the color of the molecule can be switched between Red, Green, and Blue by merely changing voltage. Based on DFT calculations, we conclude that the tristable [2]catenane should consist of a CBPQT4+ ring interlocked with a polyether macrocyle containing DNP (red), TTF (green), and FBZD (blue) units as the tunable RGB color-generating donors. Thus, at controllable voltages 0, V1, and V2, the [2]catenane is expected to display green, blue, and red colors, respectively. The advent of these RGB tristable molecules may have potential applications in low cost paperlike electronic displays.

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An electrochemical color-switchable RGB dye: Tristable [2]catenane

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