Side‐Chain Engineered P Or N‐Type Nonaqueous Polymeric Ionic Gels for Sustainable Ionic Thermoelectrics

Although ionic hydrogels have been developed recently for innovative wearable electronics, they necessitate high humidity to diffuse ions in water and fast self‐healing, which negatively impacts their performance and stability in ambient conditions (e.g., dry environments). In this study, a series o...

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Bibliographic Details
Published in:Advanced functional materials 2023-12, Vol.33 (52), p.n/a
Main Authors: Kim, Sungryong, Ham, Mirim, Lee, Junwoo, Kim, Jeongsu, Lee, Hyunjung, Park, Taiho
Format: Article
Language:English
Subjects:
ambient operation
bulky mobile ions
Healing
Humidity
Ion currents
ionic thermoelectrics
Materials science
p‐ and n‐type polymeric ionic gels
Relative humidity
Seebeck effect
thermal stability
Thermoelectricity
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Summary:Although ionic hydrogels have been developed recently for innovative wearable electronics, they necessitate high humidity to diffuse ions in water and fast self‐healing, which negatively impacts their performance and stability in ambient conditions (e.g., dry environments). In this study, a series of p‐ and n‐type polymeric ionic gels (PIGs) with different ratios of ionic side chains are synthesized to allow only single‐type ions to pass through them. The results demonstrate that the repeatedly stretchable PIGs are transparent, thermally robust up to 125°C, and self‐healing. Among the series of PIGs, p‐ and n‐type PIGs with 75% ion moieties (P75 and N75) exhibit the optimum ionic conductivity (σi) (4.1 × 10−4 and 2.7 × 10−4 S cm−1) and ionic Seebeck coefficients (Si) (5.84, and ‐4.18 mV K−1) under ambient conditions (25°C and relative humidity (RH) of 30%), resulting in ZTi values of 1.87 × 10−3 and 1.18 × 10−3. Moreover, the σi and Si of PIGs are almost consistent under extremely low RH 10%. Accordingly, P(([EMIM+][SPA])0.75‐r‐MA0.25) (P75) and P(([APTA][TFSI−])0.75‐r‐MA0.25) (N75) are used to achieve stretchable ionic thermoelectrics (iTEs) with stable operability under ambient conditions (RH of 30%), satisfying all of the requirements. The iTEs with five pairs of p/n couples exhibit a thermovoltage of up to ∼0.8 V. Nonaqueous ionic thermoelectric (iTE) materials are proposed by synthesizing the p‐/n‐type polymeric ionic gels (PIGs) (P([EMIM+][SPA]‐r‐MA) and P([APTA][TFSI−]‐r‐MA)), respectively. They enable a thermo‐diffusion of only single‐type ions by immobile charged side chains in PIGs. The p‐/n‐type PIGs with 75% ion moieties are applied to the iTEs, which exhibit stretchable and self‐healing properties under ambient conditions as well as consistent thermal and mechanical stabilities.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.202305499