Xi Zheng scite author profile

For soft electronic applications, the simultaneous incorporation of conductivity and mechanical robustness remains a grand constraint, not to mention being able to operate at wide temperatures ranges. Herein, a novel conductive platform is proposed by designing skin-inspired ionic organohydrogels based on Hofmeister effect and glycerol/water system, which simultaneously realize balanced conductivity, mechanical strength, and versatile properties. The comprehensive performances are broadly and simultaneously altered via tuning the aggregation states of polymer chains by kosmotropes or chaotropes. With various ions, the conductivity and mechanical strength are continuously in situ modulated over a large window: conductivity from 0.08 to 4.8 S m −1 , strength from 0.01 to 17.30 MPa, toughness from 5.4 to 9236.9 kJ m −3 , and modulus from 5.1 to 2258.9 kPa. The ion transport process is inseparable from the changes of water content and pore structures caused by cross-linking density. Meanwhile, the mechanical properties greatly depend on the densification or loosing of polymer chains and crystalline domains. Furthermore, oil/water system exhibits low temperature tolerance at ≈−65-15 °C and long-term stability. Finally, the champion organohydrogels are applied as wearable electronic sensors and artificial skins. The mechanism proposed in this work advances the understanding of the ions contribution to organohydrogels for electronic applications.

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Laser-induced graphene regrowth for repairing damaged graphene coating on Ni substrate

Hao

Zheng

et al. 2022

Materials Chemistry and Physics

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Laser direct fabrication graphene on silver-based contact as high-end electrical product

et al. 2023

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Xi Zheng

Fabrication of anti-icing/de-icing superhydrophobic composite coating based on hydrangea-like ZnO@CuS

Hofmeister Effect Assisted Dual‐Dynamic‐Bond Cross‐Linked Organohydrogels with Enhanced Ionic Conductivity and Balanced Mechanical Properties for Flexible Sensors

Laser-induced graphene regrowth for repairing damaged graphene coating on Ni substrate

Laser direct fabrication graphene on silver-based contact as high-end electrical product

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