材料科学
电磁干扰
电磁屏蔽
电磁干扰
复合数
摩擦电效应
纳米发生器
能量收集
数码产品
热导率
复合材料
光电子学
柔性电子器件
热能
导电体
作者
Suhyun Kim,Subhadip Mondal,Sarbaranjan Paria,Gi-Bbeum Lee,Wonjae Shin,Haeran Kim,Pranee Phinyocheep,Changwoon Nah
标识
DOI:10.1021/acsanm.6c00062
摘要
Integrating multifunctional characteristics into one flexible electromagnetic interference (EMI) shielding material is highly desirable for improving its working performance and holding a broad range of modern applications. To simultaneously promote EMI shielding efficiency with integrated thermal management and triboelectric energy harvesting, we fabricated a cellulose nanofiber-MXene/silver nanowire (CMA) composite film with a double-layered structure by a simple two-step vacuum-assisted filtration process followed by vacuum drying. Contributed by the highly efficient double-layered structure and the unique synergism generated by the combination of two different nanofillers, the obtained double-layered CMA composite (dCMA) film exhibits a satisfying EMI shielding effectiveness (EMI SE) of 67 dB, a high specific EMI shielding effectiveness (SSE/t) of 7019 dBcm2g–1, and in-plane thermal conductivity of 12.3 W/m·K, while maintaining excellent electrical conductivity of 2515 S/cm along with desirable mechanical strength and thermal durability. Compared with homogeneously mixed composite films, the dCMA composite film delivers excellent electrical conductivity, EMI shielding efficiency, and thermal management performance. More importantly, the dCMA-based triboelectric nanogenerator (TENG) can generate a maximum open-circuit voltage of ∼30.5 V/cm2 and a short-circuit current of ∼0.93 μA/cm2 with a maximum power of ∼42.9 μW/cm2 that can successfully power up portable electronics such as a sports stopwatch and an electronic calculator by harvesting energy from simple hand-tapping motions. Collectively, our developed dCMA composite films hold promising potential for a wide range of applications in multifunctional self-powered EMI shielding and thermal management materials, which can accelerate their commercial viability.
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