Junhuai Xu scite author profile

With the development of thermoelectric (TE) generator, the flexible, stretchable, self-healable, and wearable TE devices have aroused great interest. Therefore, we designed a self-healable and stretchable polyurethane (PU) ionogel, composed of polyurethane main chains with double bonds in the side, cross-linkers (BDB) and nonconjugated ionic liquids (EMIM:DCA). The PU ionogels with 30 wt % ILs have a high mechanical stretchability (300%), good tensile strength (1.61 MPa), and suitable Young’s modulus (0.79 MPa). The proposed materials also exhibited an excellent ionic figure of merit (ZT i) of 0.99 ± 0.3, as well as rapid self-healability in the absence of any external stimuli. The thermoelectric capability of PU ionogels kept stable under the severe condition (50% strain) and during self-healing process, which is rarely reported in recent studies. Furthermore, a stretchable and self-healable ionic thermoelectric capacitor device is also fabricated by the PU ionogels, which can efficiently convert heat into electricity.

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Self-healable and recyclable polyurethane-polyaniline hydrogel toward flexible strain sensor

Fang

Gao

et al. 2021

Composites Part B: Engineering

108

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Highly stretchable, self-healable, and self-adhesive ionogels with efficient antibacterial performances for a highly sensitive wearable strain sensor

Wang

et al. 2022

J. Mater. Chem. B

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Junhuai Xu

Fabrication of MXene/PEI functionalized sodium alginate aerogel and its excellent adsorption behavior for Cr(VI) and Congo Red from aqueous solution

Self-healing, anti-freezing and highly stretchable polyurethane ionogel as ionic skin for wireless strain sensing

Highly Stretchable PU Ionogels with Self-Healing Capability for a Flexible Thermoelectric Generator

Self-healable and recyclable polyurethane-polyaniline hydrogel toward flexible strain sensor

Highly stretchable, self-healable, and self-adhesive ionogels with efficient antibacterial performances for a highly sensitive wearable strain sensor

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