Bent-core liquid crystals joining the ethylene-oxide / lithium ion tandem: Ionic conductivity and dielectric response towards new electrolytes for energy applications

Alfonso Martinez-Felipe; Daniel Zaton; Martín Castillo-Vallés; Asia Baldini; Jonathan Pease; Natalie Leader; Nurul Fadhilah Kamalul Aripin; Marco Giaginti-Baschetti; M. Blanca Ros

doi:10.1016/j.molliq.2023.123100

Bent-core liquid crystals joining the ethylene-oxide / lithium ion tandem: Ionic conductivity and dielectric response towards new electrolytes for energy applications

Alfonso Martinez-Felipe^* (Corresponding Author), Daniel Zaton, Martín Castillo-Vallés, Asia Baldini, Jonathan Pease, Natalie Leader, Nurul Fadhilah Kamalul Aripin, Marco Giaginti-Baschetti, M. Blanca Ros

^*Corresponding author for this work

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

2 Citations (Scopus)

Abstract

We report the dielectric and conductivity response of three materials containing bent-core and tetra(ethylene-oxide) moieties, and their complexes doped with lithium triflate salts, as new potential nanostructured electrolytes. Whilst the pristine bent-core compounds do not show mesomorphism, the doped materials display smectic mesophases inside indium tin oxide cells assisted by the selective solvation of the lithium ions in the ethylene-oxide blocks. The dielectric response of the materials in the high-frequency range is controlled by the chemical composition of the bent-core structure, and the presence of lithium ions promotes direct current conductivity at low frequencies, in the σdc ∼ 10-5 S cm-1 range, which can be enhanced to σdc ∼ 10-4 S cm-1 via trans-to-cis photoisomerization of azobenzene groups. The dynamic and dual character of these materials (responding to low and high frequency electrical fields), the formation of ferroelectric crystals capable to store energy, and their interactions with light, will be applied to develop new energy devices.

Original language	English
Article number	123100
Number of pages	12
Journal	Journal of molecular liquids
Volume	390
Issue number	Part B
Early online date	23 Sept 2023
DOIs	https://doi.org/10.1016/j.molliq.2023.123100
Publication status	Published - Nov 2023

Bibliographical note

AMF would like to thank Ivan Dominguez-Candela for his support during the ferroelectric measurements.

Data Availability Statement

Data will be made available on request.

Keywords

Bent-core liquid crystals
ionic conductivity
dielectric analysis
energy conversion and storage
Fourier-transform infrared spectroscopy

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Martinez-Felipe_JML_Bent-core_Liquid_Crystals_VOR
© 2023 The Authors. Published by Elsevier B.V. This is an open access article under the CC BY-NC license (http://creativecommons.org/licenses/bync/4.0/).
Final published version, 8.14 MBLicence: CC BY-NC

https://www.sciencedirect.com/science/article/pii/S0167732223019062

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Martinez-Felipe, A., Zaton, D., Castillo-Vallés, M., Baldini, A., Pease, J., Leader, N., Fadhilah Kamalul Aripin, N., Giaginti-Baschetti, M., & Blanca Ros, M. (2023). Bent-core liquid crystals joining the ethylene-oxide / lithium ion tandem: Ionic conductivity and dielectric response towards new electrolytes for energy applications. Journal of molecular liquids, 390(Part B), Article 123100. https://doi.org/10.1016/j.molliq.2023.123100

Bent-core liquid crystals joining the ethylene-oxide / lithium ion tandem: Ionic conductivity and dielectric response towards new electrolytes for energy applications. / Martinez-Felipe, Alfonso (Corresponding Author); Zaton, Daniel; Castillo-Vallés, Martín et al.
In: Journal of molecular liquids, Vol. 390, No. Part B, 123100, 11.2023.

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

Martinez-Felipe, A, Zaton, D, Castillo-Vallés, M, Baldini, A, Pease, J, Leader, N, Fadhilah Kamalul Aripin, N, Giaginti-Baschetti, M & Blanca Ros, M 2023, 'Bent-core liquid crystals joining the ethylene-oxide / lithium ion tandem: Ionic conductivity and dielectric response towards new electrolytes for energy applications', Journal of molecular liquids, vol. 390, no. Part B, 123100. https://doi.org/10.1016/j.molliq.2023.123100

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title = "Bent-core liquid crystals joining the ethylene-oxide / lithium ion tandem: Ionic conductivity and dielectric response towards new electrolytes for energy applications",

abstract = "We report the dielectric and conductivity response of three materials containing bent-core and tetra(ethylene-oxide) moieties, and their complexes doped with lithium triflate salts, as new potential nanostructured electrolytes. Whilst the pristine bent-core compounds do not show mesomorphism, the doped materials display smectic mesophases inside indium tin oxide cells assisted by the selective solvation of the lithium ions in the ethylene-oxide blocks. The dielectric response of the materials in the high-frequency range is controlled by the chemical composition of the bent-core structure, and the presence of lithium ions promotes direct current conductivity at low frequencies, in the σdc ∼ 10-5 S cm-1 range, which can be enhanced to σdc ∼ 10-4 S cm-1 via trans-to-cis photoisomerization of azobenzene groups. The dynamic and dual character of these materials (responding to low and high frequency electrical fields), the formation of ferroelectric crystals capable to store energy, and their interactions with light, will be applied to develop new energy devices.",

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T2 - Ionic conductivity and dielectric response towards new electrolytes for energy applications

AU - Martinez-Felipe, Alfonso

AU - Zaton, Daniel

AU - Castillo-Vallés, Martín

AU - Baldini, Asia

AU - Pease, Jonathan

AU - Leader, Natalie

AU - Fadhilah Kamalul Aripin, Nurul

AU - Giaginti-Baschetti, Marco

AU - Blanca Ros, M.

N1 - AMF would like to thank Ivan Dominguez-Candela for his support during the ferroelectric measurements.

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N2 - We report the dielectric and conductivity response of three materials containing bent-core and tetra(ethylene-oxide) moieties, and their complexes doped with lithium triflate salts, as new potential nanostructured electrolytes. Whilst the pristine bent-core compounds do not show mesomorphism, the doped materials display smectic mesophases inside indium tin oxide cells assisted by the selective solvation of the lithium ions in the ethylene-oxide blocks. The dielectric response of the materials in the high-frequency range is controlled by the chemical composition of the bent-core structure, and the presence of lithium ions promotes direct current conductivity at low frequencies, in the σdc ∼ 10-5 S cm-1 range, which can be enhanced to σdc ∼ 10-4 S cm-1 via trans-to-cis photoisomerization of azobenzene groups. The dynamic and dual character of these materials (responding to low and high frequency electrical fields), the formation of ferroelectric crystals capable to store energy, and their interactions with light, will be applied to develop new energy devices.

AB - We report the dielectric and conductivity response of three materials containing bent-core and tetra(ethylene-oxide) moieties, and their complexes doped with lithium triflate salts, as new potential nanostructured electrolytes. Whilst the pristine bent-core compounds do not show mesomorphism, the doped materials display smectic mesophases inside indium tin oxide cells assisted by the selective solvation of the lithium ions in the ethylene-oxide blocks. The dielectric response of the materials in the high-frequency range is controlled by the chemical composition of the bent-core structure, and the presence of lithium ions promotes direct current conductivity at low frequencies, in the σdc ∼ 10-5 S cm-1 range, which can be enhanced to σdc ∼ 10-4 S cm-1 via trans-to-cis photoisomerization of azobenzene groups. The dynamic and dual character of these materials (responding to low and high frequency electrical fields), the formation of ferroelectric crystals capable to store energy, and their interactions with light, will be applied to develop new energy devices.

KW - Bent-core liquid crystals

KW - ionic conductivity

KW - dielectric analysis

KW - energy conversion and storage

KW - Fourier-transform infrared spectroscopy

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DO - 10.1016/j.molliq.2023.123100

M3 - Article

SN - 0167-7322

VL - 390

JO - Journal of molecular liquids

JF - Journal of molecular liquids

IS - Part B

M1 - 123100

ER -

Bent-core liquid crystals joining the ethylene-oxide / lithium ion tandem: Ionic conductivity and dielectric response towards new electrolytes for energy applications

Abstract

Bibliographical note

Data Availability Statement

Keywords

Access to Document

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