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Mechanically robust eutectogels enabled by precisely engineered crystalline domains

Yujia Jiang, Ning Tang, Xiaoting Wang, Dongxu Pei, Hao Zhang, Min‐Hui Li, Jun Hu

2025Nature Communications21 citationsDOIOpen Access PDF

Abstract

Eutectogels have emerged as promising candidates for technological applications due to their environmental stability, repeatable deformability, and high ionic conductivity. Nevertheless, the existing eutectogels often show fragile network structures, in which the simultaneous achievement of high modulus, strength, and toughness remains a real challenge. Herein, a variable-temperature solvent exchange (VTSE) strategy is proposed to fabricate mechanically robust eutectogels. The VTSE approach implements a two-stage solvent exchange process to synergistically optimize the crystal nucleation and growth of poly(vinyl alcohol), resulting in a robust network crosslinked by well-developed crystalline domains. The obtained eutectogels exhibit an advantageous combination of high Young’s modulus (103.1 MPa), strength (40.5 MPa), toughness (86.8 MJ m−3), and fracture energy (98.7 kJ m−2), surpassing the performance of conventional hydrogels, organogels, and ionogels. Moreover, the versatility of VTSE approach allows its application to other solvent systems, providing a powerful platform for the design of advanced functional gels. The fragile network structures of eutectogels limits their technological applications. Here the authors report a variable-temperature solvent exchange strategy to fabricate mechanically robust eutectogels.

Topics & Concepts

Materials scienceNanotechnologyComputer scienceAerogels and thermal insulationAdvanced Materials and MechanicsCalcium Carbonate Crystallization and Inhibition
Mechanically robust eutectogels enabled by precisely engineered crystalline domains | Litcius