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Fast Bulky Anion Conduction Enabled by Free Shuttling Phosphonium Cations 被引量:1
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作者 Xiaolin Ge Yubin He +9 位作者 Kaiyu Zhang Xian Liang Chengpeng Wei Muhammad A.Shehzad wanjie song Zijuan Ge Geng Li Weisheng Yu Liang Wu Tongwen Xu 《Research》 SCIE EI CAS CSCD 2021年第1期737-747,共11页
Highly conductive anion-exchange membranes(AEMs)are desirable for applications in various energy storage and conversion technologies.However,conventional AEMs with bulky HCO_(3)^(-)or Br-as counterion generally exhibi... Highly conductive anion-exchange membranes(AEMs)are desirable for applications in various energy storage and conversion technologies.However,conventional AEMs with bulky HCO_(3)^(-)or Br-as counterion generally exhibit low conductivity because the covalent bonding restrains the tethered cationic group’s mobility and rotation.Here,we report an alternative polyrotaxane AEM with nontethered and free-shuttling phosphonium cation.As proved by temperature-dependent NMR,solid-state NMR,and molecular dynamics simulation,the phosphonium cation possesses a thermally trigged shuttling behavior,broader extension range,and greater mobility,thus accelerating the diffusion conduction of bulky anions.Owing to this striking feature,high HCO_(3)^(-)conductivity of 105 mS cm^(-1)at 90℃ was obtained at a relatively lower ion-exchange capacity of 1.17 mmol g^(-1).This study provides a new concept for developing highly conductive anion-exchange membranes and will catalyze the exploration of new applications for polyrotaxanes in ion conduction processes. 展开更多
关键词 conduction EXCHANGE CONDUCTIVITY
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Fast Bulky Anion Conduction Enabled by Free Shuttling Phosphonium Cations
2
作者 Xiaolin Ge Yubin He +9 位作者 Kaiyu Zhang Xian Liang Chengpeng Wei Muhammad A.Shehzad wanjie song Zijuan Ge Geng Li Weisheng Yu Liang Wu Tongwen Xu 《Research》 EI CAS CSCD 2022年第1期79-89,共11页
Highly conductive anion-exchange membranes(AEMs)are desirable for applications in various energy storage and conversion technologies.However,conventional AEMs with bulky HCO3-or Br-as counterion generally exhibit low ... Highly conductive anion-exchange membranes(AEMs)are desirable for applications in various energy storage and conversion technologies.However,conventional AEMs with bulky HCO3-or Br-as counterion generally exhibit low conductivity because the covalent bonding restrains the tethered cationic group’s mobility and rotation.Here,we report an alternative polyrotaxane AEM with nontethered and free-shuttling phosphonium cation.As proved by temperature-dependent NMR,solid-state NMR,and molecular dynamics simulation,the phosphonium cation possesses a thermally trigged shuttling behavior,broader extension range,and greater mobility,thus accelerating the diffusion conduction of bulky anions.Owing to this striking feature,high HCO_(3)-conductivity of 105 mS cm^(-1) at 90℃ was obtained at a relatively lower ion-exchange capacity of 1.17 mmol g^(-1).This study provides a new concept for developing highly conductive anion-exchange membranes and will catalyze the exploration of new applications for polyrotaxanes in ion conduction processes. 展开更多
关键词 conduction EXCHANGE CONDUCTIVITY
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