A Well-Established POM-based Single-Crystal Proton-Conducting Model Incorporating Multiple Weak Interactions

Xue Li Cao; Shuai Lei Xie; Shun Li Li; Long Zhang Dong; Jiang Liu; Xi Xi Liu; Wen Bin Wang; Zhong Min Su; Wei Guan; Ya Qian Lan

doi:10.1002/chem.201705758

A Well-Established POM-based Single-Crystal Proton-Conducting Model Incorporating Multiple Weak Interactions

Xue Li Cao, Shuai Lei Xie, Shun Li Li, Long Zhang Dong, Jiang Liu, Xi Xi Liu, Wen Bin Wang, Zhong Min Su, Wei Guan, Ya Qian Lan

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

37 Scopus citations

Abstract

Three new proton conductors with simple structures based on isolated olyoxometalate anions as well as protonated imidazole and benzimidazole, namely, NNU-6–8, have been successfully prepared by hydrothermal reaction. We could control the number of proton sources by selecting different types and changing the charges of POM anions. The single crystal sample of NNU-6 along a-axis shows a highest proton conductivity of 1.91×10⁻² S cm⁻¹, which is two and three orders of magnitude higher than that of 2.42×10⁻⁴ and 8.90×10⁻⁵ S cm⁻¹ along b- and c-axes, respectively, due to the more unobstructed H-bonding network and stronger π–π stacking between benzimidazole rings as proton-transferring pathway along a-axis than that along b and c axes. It is a straightforward model to understand the metaphysical proton-conducting process, and this is the first time to put forward the idea that π–π stacking could assist proton transfer and be in favor of proton conduction, which has been demonstrated by calculating potential energy surfaces of proton transfer between benzimidazole molecules.

Original language	English
Pages (from-to)	2365-2369
Number of pages	5
Journal	Chemistry - A European Journal
Volume	24
Issue number	10
DOIs	https://doi.org/10.1002/chem.201705758
State	Published - 16 Feb 2018
Externally published	Yes

Keywords

N-ligand
hydrogen bonding
polyoxometalates
proton-conducting model
π–π interactions

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10.1002/chem.201705758

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title = "A Well-Established POM-based Single-Crystal Proton-Conducting Model Incorporating Multiple Weak Interactions",

abstract = "Three new proton conductors with simple structures based on isolated olyoxometalate anions as well as protonated imidazole and benzimidazole, namely, NNU-6–8, have been successfully prepared by hydrothermal reaction. We could control the number of proton sources by selecting different types and changing the charges of POM anions. The single crystal sample of NNU-6 along a-axis shows a highest proton conductivity of 1.91×10−2 S cm−1, which is two and three orders of magnitude higher than that of 2.42×10−4 and 8.90×10−5 S cm−1 along b- and c-axes, respectively, due to the more unobstructed H-bonding network and stronger π–π stacking between benzimidazole rings as proton-transferring pathway along a-axis than that along b and c axes. It is a straightforward model to understand the metaphysical proton-conducting process, and this is the first time to put forward the idea that π–π stacking could assist proton transfer and be in favor of proton conduction, which has been demonstrated by calculating potential energy surfaces of proton transfer between benzimidazole molecules.",

keywords = "N-ligand, hydrogen bonding, polyoxometalates, proton-conducting model, π–π interactions",

author = "Cao, {Xue Li} and Xie, {Shuai Lei} and Li, {Shun Li} and Dong, {Long Zhang} and Jiang Liu and Liu, {Xi Xi} and Wang, {Wen Bin} and Su, {Zhong Min} and Wei Guan and Lan, {Ya Qian}",

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AU - Cao, Xue Li

AU - Xie, Shuai Lei

AU - Li, Shun Li

AU - Dong, Long Zhang

AU - Liu, Jiang

AU - Liu, Xi Xi

AU - Wang, Wen Bin

AU - Su, Zhong Min

AU - Guan, Wei

AU - Lan, Ya Qian

PY - 2018/2/16

Y1 - 2018/2/16

N2 - Three new proton conductors with simple structures based on isolated olyoxometalate anions as well as protonated imidazole and benzimidazole, namely, NNU-6–8, have been successfully prepared by hydrothermal reaction. We could control the number of proton sources by selecting different types and changing the charges of POM anions. The single crystal sample of NNU-6 along a-axis shows a highest proton conductivity of 1.91×10−2 S cm−1, which is two and three orders of magnitude higher than that of 2.42×10−4 and 8.90×10−5 S cm−1 along b- and c-axes, respectively, due to the more unobstructed H-bonding network and stronger π–π stacking between benzimidazole rings as proton-transferring pathway along a-axis than that along b and c axes. It is a straightforward model to understand the metaphysical proton-conducting process, and this is the first time to put forward the idea that π–π stacking could assist proton transfer and be in favor of proton conduction, which has been demonstrated by calculating potential energy surfaces of proton transfer between benzimidazole molecules.

AB - Three new proton conductors with simple structures based on isolated olyoxometalate anions as well as protonated imidazole and benzimidazole, namely, NNU-6–8, have been successfully prepared by hydrothermal reaction. We could control the number of proton sources by selecting different types and changing the charges of POM anions. The single crystal sample of NNU-6 along a-axis shows a highest proton conductivity of 1.91×10−2 S cm−1, which is two and three orders of magnitude higher than that of 2.42×10−4 and 8.90×10−5 S cm−1 along b- and c-axes, respectively, due to the more unobstructed H-bonding network and stronger π–π stacking between benzimidazole rings as proton-transferring pathway along a-axis than that along b and c axes. It is a straightforward model to understand the metaphysical proton-conducting process, and this is the first time to put forward the idea that π–π stacking could assist proton transfer and be in favor of proton conduction, which has been demonstrated by calculating potential energy surfaces of proton transfer between benzimidazole molecules.

KW - N-ligand

KW - hydrogen bonding

KW - polyoxometalates

KW - proton-conducting model

KW - π–π interactions

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A Well-Established POM-based Single-Crystal Proton-Conducting Model Incorporating Multiple Weak Interactions

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