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W4308156716 abstract "• Slipping semi-crystalline hydrogen bonding arrays strategy was firstly proposed. • Ultrastretchability and outstanding toughness were achieved simultaneously. • Excellent sensitivity was achieved by compensating electronic networks. Self-healing and human-friendly electronics, with plenty of dynamic structural motifs, are desired to be ultrastretchable, highly sensitive, self-powered and responsive with external stimulus as the medium of artificial intelligence. Herein, meticulously engineered dynamic structural motifs, slipping semi-crystalline dynamic hydrogen bonding arrays (SSHAs) were firstly proposed and utilized to achieve ultrastretchable (2880%), tough (115.7 MJ∙m −3 ) elastomers (PAT) with excellent actuation performance (actuation strain ≈ 37%) and human-friendly healing temperature. For the multifunctionality, the elaborate assembly of SSHAs was also adopted to obtain three-dimensional (3D) physical networks (PAT-M) by integrating with Ti 3 C 2 T x and silver nanowire. As expected, high sensitivity (gauge factor, GF ≈ 60.6) and ultrahigh energy harvesting property (2.6 W∙m −2 ) were simultaneously achieved attributing to the 3D physical networks. This study not only provides a brand-new and promising strategy to develop human-friendly self-healing elastomers, but also promotes the advances of multifunctional electronics." @default.
W4308156716 created "2022-11-08" @default.
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W4308156716 date "2023-02-01" @default.
W4308156716 modified "2023-10-10" @default.
W4308156716 title "Bioinspired self-healing and robust elastomer via tailored slipping semi-crystalline arrays for multifunctional electronics" @default.
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W4308156716 doi "https://doi.org/10.1016/j.cej.2022.139982" @default.
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