[Composites Science and Technology] MOF-derived CoNi@C-silver nanowires/cellulose nanofiber composite papers with excellent thermal management capability for outstanding electromagnetic interference shielding
作者:Chaobo Liang, Jie He, Yali Zhang, Wei Zhang, Chunlei Liu, Xiangteng Ma, Yaqing Liu* and Junwei Gu*
關(guān)鍵字:Electromagnetic interference shielding
論文來源:期刊
具體來源:Composites Science and Technology
發(fā)表時(shí)間:2022年
Chaobo Liang, Jie He, Yali Zhang, Wei Zhang, Chunlei Liu, Xiangteng Ma, Yaqing Liu* and Junwei Gu*. MOF-derived CoNi@C-silver nanowires/cellulose nanofiber composite papers with excellent thermal management capability for outstanding electromagnetic interference shielding. Composites Science and Technology, 2022, 224: 109445. 2021IF=9.879.(1區(qū)材料科學(xué)Top期刊)
https://doi.org/10.1016/j.compscitech.2022.109445
High-performance electromagnetic interference (EMI) shielding materials with excellent flexibility and superior thermal management properties are ideal candidates for aerospace, communication industry, artificial intelligence, and wearable electronics. Herein, MOF-derived CoNi@C-silver nanowires/cellulose nanofiber (MAg/CNF) composite papers with Janus structure were prepared using a combination of two-step vacuum filtration and hot pressing. The resulting composite papers exhibit distinct electrical differences on both sides. The electrical conductivity of the CoNi@C/CNF side is 8.35×10-12 S/cm, while that of the AgNWs/CNF side is 990 S/cm. EMI shielding effectiveness (SE) of the MAg/CNF composite papers reaches 82 dB in the X-band, benefiting from effective double-layer structure, the AgNWs conductive network and the CoNi@C permeability network for adequate dissipation of electromagnetic waves. Excellent EMI shielding performance is maintained even after being subjected to low temperature of -196℃ and bending cycles of 1000 times. In addition, the MAg/CNF composite paper-based electric heaters exhibit satisfactory heating temperatures at absolutely safe operating voltages for the human as well as sufficient stability and repeatability during repeated heating and cooling cycles. Therefore, our fabricated MAg/CNF composite papers with Janus structure present broad application prospects for high-performance EMI shielding and thermal management in low-temperature environment.
具有出色的柔韌性、卓越的熱管理性能的高性能電磁干擾(EMI)屏蔽材料是航空航天、通訊工業(yè)、人工智能、可穿戴電子等領(lǐng)域的理想候選。在這項(xiàng)工作中,具有雙面結(jié)構(gòu)的CoNi@C-AgNWs/cellulosic nanofiber(MAg/CNF)復(fù)合紙被制備采用兩步真空抽濾自組裝和熱壓相結(jié)合的方法。所得的雙層復(fù)合紙展現(xiàn)出“一面絕緣、一面導(dǎo)電”特性,CoNi@C/CNF面的電導(dǎo)率低至8.35×10-12 S/cm,而AgNWs/CNF面的電導(dǎo)率高至990 S/cm。MAg/CNF復(fù)合紙的EMI屏蔽效能(EMI SE)達(dá)到82 dB在X波段,得益于有效的雙層結(jié)構(gòu)、AgNWs導(dǎo)電網(wǎng)絡(luò)和CoNi@C導(dǎo)磁網(wǎng)絡(luò)對電磁波的充分耗散。即使在經(jīng)受-196℃的低溫和1000次彎曲循環(huán)后,復(fù)合紙仍可保持卓越的EMI屏蔽性能。此外,MAg/CNF復(fù)合紙基電加熱器在人體絕對安全的工作電壓下表現(xiàn)出令人滿意的加熱溫度以及在長期和重復(fù)的加熱和冷卻循環(huán)中具有足夠的穩(wěn)定性和可重復(fù)性。因此,具有雙面結(jié)構(gòu)的復(fù)合紙?jiān)诘蜏丨h(huán)境下高性能EMI屏蔽和熱管理應(yīng)用方面具有廣闊的應(yīng)用前景。