Impact of Lattice Water on Solid-State Electron Transfer in Viologen Pseudopolymorphs: Modulation of Photo- and Piezochromism

Qi Sui; Ning Ning Yang; Teng Gong; Peng Li; Ye Yuan; En Qing Gao; Lin Wang

doi:10.1021/acs.jpclett.7b02452

Impact of Lattice Water on Solid-State Electron Transfer in Viologen Pseudopolymorphs: Modulation of Photo- and Piezochromism

Qi Sui, Ning Ning Yang, Teng Gong, Peng Li, Ye Yuan, En Qing Gao, Lin Wang

School of Chemistry and Molecular Engineering

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

81 Scopus citations

Abstract

Stimuli-induced solid-state electron transfer (ET) underlies the use of viologen compounds as responsive materials, but unequivocal structure-property correlations for solid-state ET are still lacking. With different pseudopolymorphic solids derived from N,N′-bis(4-carboxylphenyl)viologen ([H₂bcpV]²⁺), here we report a systematic study on photo- and piezochromic properties associated with ET. We show that the higher the water content in the lattice, the less sensitively the compounds respond to light and pressure. It is proposed that the lattice water does not act as an electron donor but serves to change the ET energetics through its unique polarity and hydrogen bonding capability. The impedimental impact of water on solid-state ET of viologen compounds has not yet been recognized and elucidated prior to this work. The study also suggests that pressure is more powerful than light in inducing ET.

Original language	English
Pages (from-to)	5450-5455
Number of pages	6
Journal	Journal of Physical Chemistry Letters
Volume	8
Issue number	21
DOIs	https://doi.org/10.1021/acs.jpclett.7b02452
State	Published - 2 Nov 2017

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title = "Impact of Lattice Water on Solid-State Electron Transfer in Viologen Pseudopolymorphs: Modulation of Photo- and Piezochromism",

abstract = "Stimuli-induced solid-state electron transfer (ET) underlies the use of viologen compounds as responsive materials, but unequivocal structure-property correlations for solid-state ET are still lacking. With different pseudopolymorphic solids derived from N,N′-bis(4-carboxylphenyl)viologen ([H2bcpV]2+), here we report a systematic study on photo- and piezochromic properties associated with ET. We show that the higher the water content in the lattice, the less sensitively the compounds respond to light and pressure. It is proposed that the lattice water does not act as an electron donor but serves to change the ET energetics through its unique polarity and hydrogen bonding capability. The impedimental impact of water on solid-state ET of viologen compounds has not yet been recognized and elucidated prior to this work. The study also suggests that pressure is more powerful than light in inducing ET.",

author = "Qi Sui and Yang, \{Ning Ning\} and Teng Gong and Peng Li and Ye Yuan and Gao, \{En Qing\} and Lin Wang",

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doi = "10.1021/acs.jpclett.7b02452",

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T1 - Impact of Lattice Water on Solid-State Electron Transfer in Viologen Pseudopolymorphs

T2 - Modulation of Photo- and Piezochromism

AU - Sui, Qi

AU - Yang, Ning Ning

AU - Gong, Teng

AU - Li, Peng

AU - Yuan, Ye

AU - Gao, En Qing

AU - Wang, Lin

PY - 2017/11/2

Y1 - 2017/11/2

N2 - Stimuli-induced solid-state electron transfer (ET) underlies the use of viologen compounds as responsive materials, but unequivocal structure-property correlations for solid-state ET are still lacking. With different pseudopolymorphic solids derived from N,N′-bis(4-carboxylphenyl)viologen ([H2bcpV]2+), here we report a systematic study on photo- and piezochromic properties associated with ET. We show that the higher the water content in the lattice, the less sensitively the compounds respond to light and pressure. It is proposed that the lattice water does not act as an electron donor but serves to change the ET energetics through its unique polarity and hydrogen bonding capability. The impedimental impact of water on solid-state ET of viologen compounds has not yet been recognized and elucidated prior to this work. The study also suggests that pressure is more powerful than light in inducing ET.

AB - Stimuli-induced solid-state electron transfer (ET) underlies the use of viologen compounds as responsive materials, but unequivocal structure-property correlations for solid-state ET are still lacking. With different pseudopolymorphic solids derived from N,N′-bis(4-carboxylphenyl)viologen ([H2bcpV]2+), here we report a systematic study on photo- and piezochromic properties associated with ET. We show that the higher the water content in the lattice, the less sensitively the compounds respond to light and pressure. It is proposed that the lattice water does not act as an electron donor but serves to change the ET energetics through its unique polarity and hydrogen bonding capability. The impedimental impact of water on solid-state ET of viologen compounds has not yet been recognized and elucidated prior to this work. The study also suggests that pressure is more powerful than light in inducing ET.

UR - https://www.scopus.com/pages/publications/85032816746

U2 - 10.1021/acs.jpclett.7b02452

DO - 10.1021/acs.jpclett.7b02452

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JO - Journal of Physical Chemistry Letters

JF - Journal of Physical Chemistry Letters

IS - 21

ER -

Impact of Lattice Water on Solid-State Electron Transfer in Viologen Pseudopolymorphs: Modulation of Photo- and Piezochromism

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