2022
DOI: 10.1002/adfm.202207452
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Ultra‐Tough Room‐Temperature Dielectric Switching Ionic Gels with Long‐Cycle Stability

Abstract: As a favorable candidate for the next‐generation smart electronic devices, thermo‐responsive dielectric materials are faced with two crucial challenges: insufficient mechanical toughness and lack of the combination of promising dielectric switching properties, desired mechanical properties, and long‐cycle stability. Herein, a new scalable strategy is proposed for designing thermo‐responsive dielectric switching materials that simultaneously integrate the individual features, such as promising dielectric switch… Show more

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Cited by 19 publications
(19 citation statements)
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“…Our recent studies [35,36] demonstrate that significantly enhanced dielectric switching ratios can be obtained by modulating the competition between electrode polarization and interfacial polarization. For example, [35] the phase transition of polyethylene glycol has been exploited to alter the mobility of ionic liquid, greatly enhancing the electrode polarization in the molten state, resulting in the highest dielectric switching ratio reported to date (320.6), as shown in Situation 1 of Figure 1c.…”
Section: Introductionmentioning
confidence: 99%
See 2 more Smart Citations
“…Our recent studies [35,36] demonstrate that significantly enhanced dielectric switching ratios can be obtained by modulating the competition between electrode polarization and interfacial polarization. For example, [35] the phase transition of polyethylene glycol has been exploited to alter the mobility of ionic liquid, greatly enhancing the electrode polarization in the molten state, resulting in the highest dielectric switching ratio reported to date (320.6), as shown in Situation 1 of Figure 1c.…”
Section: Introductionmentioning
confidence: 99%
“…For example, [35] the phase transition of polyethylene glycol has been exploited to alter the mobility of ionic liquid, greatly enhancing the electrode polarization in the molten state, resulting in the highest dielectric switching ratio reported to date (320.6), as shown in Situation 1 of Figure 1c. Alternatively, the opposite approach [36] is used to obtain a high dielectric switching ratio by inhibiting the electrode polarization using the polymer matrix and instead enhancing the interfacial polarization at low temperatures. The interfacial polarization state transition caused by the crystallization/melting phase transition can also achieve a significantly enhanced dielectric switching ratio (up to 150.89) in stable solid-phase systems.…”
Section: Introductionmentioning
confidence: 99%
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“…Meanwhile the polymer-based dielectric capacitors have attracted much attention because of their good flexibility, light weight, and high-power density. [1][2][3][4] The best polymer dielectric material currently available is biaxially stretched polypropylene (BOPP), which has excellent high breakdown strength (700 MV/m), extremely low loss factor (0.0002), but has low dielectric constant (2.2) and limited temperature (105 C). [5][6][7][8][9] Therefore, the research of high-temperature-resistant polymer dielectrics with high dielectric constant, low loss, and high breakdown strength is the key to whether the nextgeneration film capacitors can be applied in harsh environments.…”
Section: Introductionmentioning
confidence: 99%
“…In recent years, dielectric capacitors have been widely used in the fields of automotive electronics and aerospace. Meanwhile the polymer‐based dielectric capacitors have attracted much attention because of their good flexibility, light weight, and high‐power density 1–4 . The best polymer dielectric material currently available is biaxially stretched polypropylene (BOPP), which has excellent high breakdown strength (700 MV/m), extremely low loss factor (0.0002), but has low dielectric constant (2.2) and limited temperature (105°C) 5–9 .…”
Section: Introductionmentioning
confidence: 99%