电磁屏蔽
电磁干扰
接口(物质)
干扰(通信)
材料科学
光电子学
工程物理
纳米技术
航空航天工程
工程类
电气工程
复合材料
毛细管数
频道(广播)
毛细管作用
作者
Yi He,Jiyong Wen,Lin Gan,Jin Huang
标识
DOI:10.1016/j.mochem.2025.100010
摘要
MXene-based fire-sensing films are expected to integrate self-powered fire monitoring and excellent electromagnetic interference (EMI) shielding for electronic devices. However, quantum interlocking of thermoelectric and charge transport in high-dimensional degenerate MXene limits their synergistic enhancement. Here, a multifunction-integration strategy was proposed by regulating competition of Seebeck coefficient and conductivity on carrier concentration, based on hetero-interface engineering of hierarchical “brick/mortar” structure. This structure with gradient impedance matching was designed by sandwiching an MXene inner layer between two hybrid-nanoparticle outer layers, which are assembled by tunicate cellulose nanocrystals (tCNCs) and ammonium polyphosphate (APP) inserting into MXene nanosheets (MAC) through hydrogen bonds and electrostatic interactions. The obtained 1.2 mm self-powered composite film (MAC@MX40) generates a maximum Seebeck voltage of 6.2 mV to trigger an alarm signal lasting over 113.28 s within 2.74 s upon exposure to flame without external power. An excellent absorption-domainance EMI shielding effectiveness of 64.3 dB within the frequency range of 8.2–12.4 GHz (X-band) is achieved, consistent with the result of finite element simulation. The good Joule heating capacity is confirmed by a tunable saturation temperature of 20–114 °C within 100 s under voltages 1–5 V. The tensile strength of 80.9 MPa and elongation at break of 5.9 % are also achieved, respectively increasing 99.9 % and 4.1 % compared to the MXene counterpart. This multifunction strategy simultaneously enables MXene-based films to be self-powered fire-sensing and EMI shielding for better life and property protection. • Promoted Seebeck effect for self-powered fire-sensing of MXene-based film. • Integrated multifunction via synergistic micro/macro hierarchical structural design. • 2.74 s sensitive response and 113.28 s alarm duration in self-powered mode. • 64.3 dB EMI SE and prediction model of finite element simulation.
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