2019
DOI: 10.1002/advs.201801337
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Aligned Ionogel Electrolytes for High‐Temperature Supercapacitors

Abstract: Ionogels are a new class of promising materials for use in all‐solid‐state energy storage devices in which they can function as an integrated separator and electrolyte. However, their performance is limited by the presence of a crosslinking polymer, which is needed to improve the mechanical properties, but compromises their ionic conductivity. Here, directional freezing is used followed by a solvent replacement method to prepare aligned nanocomposite ionogels which exhibit enhanced ionic conductivity, good mec… Show more

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Cited by 61 publications
(62 citation statements)
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“…However, in addition to a reduction in the high frequency real axis intercept (typically associated with the ionic transport between the two electrodes), there is also a reduction in the width of a semicircle feature at intermediate frequencies. These semicircle features are often attributed to a variety of pseudo-capacitive processes taking place in the supercapacitor, which is in line with previous reports 37 but can also be more simply explained by considering a spatially distributed nature of capacitive surface in porous electrodes as reported by Eloot et al 38…”
Section: 15supporting
confidence: 87%
“…However, in addition to a reduction in the high frequency real axis intercept (typically associated with the ionic transport between the two electrodes), there is also a reduction in the width of a semicircle feature at intermediate frequencies. These semicircle features are often attributed to a variety of pseudo-capacitive processes taking place in the supercapacitor, which is in line with previous reports 37 but can also be more simply explained by considering a spatially distributed nature of capacitive surface in porous electrodes as reported by Eloot et al 38…”
Section: 15supporting
confidence: 87%
“…However, as shown in Figure e, the lowest ionic conductivity 0.1 S m −1 of A 15 D 0 –NaAc 1.6 is still higher than that of most nonliquid electrolytes . The hydration layer around NaAc crystals due to precipitation–dissolution equilibrium in Figure S9 in the Supporting Information provides an aligned ion migration channel along the needle‐like crystals, similar to the aligned pores structure within hydrogel electrolyte . The molecular structure of NaAc·3H 2 O comprises 3 moles of crystal water, which means plenty of free water will transform into crystal water during crystallization.…”
mentioning
confidence: 83%
“…With the same electrodes covering both sides of the gel electrolyte, the device with anisotropic structure presented improved ionic conductivity and enhanced specific capacitance at high current in comparison to the isotropic, nonaligned gel. With aligned architecture, the supercapacitor energy loss was significantly reduced . Notably, the electrochemical performance with aligned structure was comparable to that of a pure electrolyte device.…”
Section: Introductionmentioning
confidence: 86%
“…Currently, anisotropic hydrogels are mainly synthesized through directional stimuli, including mechanical forces, magnetic field, electric fields, directional freezing, and directional ion diffusion . Particularly, the directional‐freezing, or ice‐templating, is a promising and versatile approach to create well‐defined aligned porous channels along the freezing direction . In this process, the hydrogel precursor solution is frozen along a directional temperature gradient .…”
Section: Introductionmentioning
confidence: 99%
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