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Yali Zhang, Zhonglei Ma, Kunpeng Ruan and Junwei Gu*. Multifunctional Ti₃C₂T_x-(Fe₃O₄/polyimide) composite films with Janus structure for outstanding electromagnetic interference shielding and superior visual thermal management. Nano Research, 2022, 10.1007/s12274-022-4358-7. 2020IF=8.897.（1區材料科學Top期刊，中國科技期刊卓越行動計劃-領軍類期刊項目，2021中國最具國際影響力學術期刊）

https://doi.org/10.1007/s12274-022-4358-7

Abstract

Flexible multifunctional polymer-based electromagnetic interference (EMI) shielding composite films have important application values in the fields of 5G communication technology, wearable electronic devices and artificial intelligence. In this work, Fe₃O₄/polyamic acid (PAA) nanofiber films are prepared by in-situ polymerization and electrospinning technology, and Ti₃C₂T_x nanosheets are deposited on the surface of the Fe₃O₄/PAA nanofiber films via vacuum-assisted filtration. Then, Janus Ti₃C₂T_x-(Fe₃O₄/polyimide (PI)) composite films are obtained by thermal imidization. The two sides of the Janus films exhibit completely different properties. The Fe₃O₄/PI side has excellent hydrophobicity and insulation property, and the Ti₃C₂T_x side has terrific hydrophilicity and conductivity. When the mass fraction of Ti₃C₂T_x is 80 wt%, the Janus Ti₃C₂T_x-(Fe₃O₄/PI) composite film has excellent EMI shielding performances and mechanical properties, with EMI shielding effectiveness, tensile strength and Young’s modulus reaching 66 dB, 114.5 MPa and 5.8 GPa, respectively. At the same time, electromagnetic waves show different absorption shielding effectiveness (SE_A) when incident from two sides of the Janus films. When the electromagnetic waves are incident from the Fe₃O₄/PI side, the SE_A of the Janus film is 58 dB, much higher than that when the electromagnetic waves are incident from the Ti₃C₂T_x side (39 dB). In addition, the Ti₃C₂T_x side of the Janus Ti₃C₂T_x-(Fe₃O₄/PI) composite films also have excellent electrothermal and photothermal conversion performances. When the applied voltage is 4 V, the stable surface temperature reaches 108^oC; when it is irradiated by simulated sunlight with power density of 200 mW/cm², the stable surface temperature reaches 95^oC.

柔性多功能聚合物基電磁干擾（EMI）屏蔽復合膜在5G通信技術、可穿戴電子設備和人工智能等領域具有重要的應用價值。本文通過“原位聚合-靜電紡絲”法制備四氧化三鐵/聚酰胺酸（Fe₃O₄/PAA）納米纖維膜，借助真空輔助抽濾在Fe₃O₄/PAA納米纖維膜表面沉積Ti₃C₂T_x納米片，再經熱亞胺化制備具有Janus結構的Ti₃C₂T_x-（Fe₃O₄/聚酰亞胺（PI））復合膜。該復合膜兩側表現出截然不同的性質，Fe₃O₄/PI側具有優異的疏水性和絕緣性，而Ti₃C₂T_x側具有出色的親水性和導電性。當Ti₃C₂T_x質量分數為80 wt%時，Ti₃C₂T_x-（Fe₃O₄/PI）復合膜兼具優異的屏蔽性能和力學性能，EMI屏蔽效能達到66 dB、拉伸強度和楊氏模量分別達到114.5 MPa和5.8 GPa。同時，電磁波從Janus結構復合膜兩側入射時表現出不同的EMI吸收屏蔽效能（SE_A）。當電磁波從Fe₃O₄/PI側入射時，復合膜的SE_A為58 dB，遠高于從Ti₃C₂T_x側入射時的SE_A（39 dB）。此外，Ti₃C₂T_x-（Fe₃O₄/PI）復合膜的Ti₃C₂T_x側還具有優異的電熱和光熱轉化性能。當施加4 V電壓時，其表面穩定溫度達到108^oC；當受到功率密度為200 mW/cm²模擬太陽光照射時，表面穩定溫度達到95^oC。

本文亮點

1. 通過原位聚合-靜電紡絲、真空輔助抽濾及熱亞胺化工藝制備的具有Janus結構的多功能Ti₃C₂T_x-（Fe₃O₄/PI）復合膜兩側表現出截然不同的性質，Fe₃O₄/PI側具有優異的疏水性和絕緣性，而Ti₃C₂T_x側具有出色的親水性和導電性。

2. 當Ti₃C₂T_x質量分數為80 wt%時，Ti₃C₂T_x-（Fe₃O₄/PI）復合膜的EMI屏蔽效能高達66 dB。電磁波從Janus結構復合膜的兩側入射時表現出不同的SE_A。當電磁波從復合膜的Fe₃O₄/PI側入射時，復合膜的SE_A為58 dB，高于從Ti₃C₂T_x側入射時的SE_A（39 dB）。

3. Ti₃C₂T_x-（Fe₃O₄/PI）復合膜的Ti₃C₂T_x側還具有優異的電熱和光熱轉化性能。當施加4 V電壓時，其表面穩定溫度達到108^oC；當受到功率密度為200 mW/cm²的模擬太陽光照射時，表面穩定溫度達到95^oC。