材料科学
制作
纳米技术
电磁屏蔽
柔性电子器件
复合数
热导率
数码产品
焦耳加热
韧性
热的
导电体
电阻率和电导率
复合材料
静电学
热稳定性
钽
导电的
纳米复合材料
平版印刷术
涂层
纳米制造
电导率
静电放电
作者
Sebastian Anand,Dineshkumar Mani,M. A. Islam,Won Kook Choi,Pyeong Jun Park,Hanchul Kim,Sung‐Ryong Kim
标识
DOI:10.1021/acsami.5c12084
摘要
Fabricating freestanding films with pristine MXene aims at meeting all-around high standards of modern electronics through boosting high electrical conductivity, thermal conductivity, and robust mechanical strength. However, voids and defects arising during fabrication often limit the performance and versatility. An effective electrostatic repulsion-induced alignment strategy is suggested here to overcome the major obstacles in the industrial application of MXene films. This approach combines polydopamine (PDA)-modified MXene with two-dimensional (2D) tantalum disulfide (TaS 2 ) nanosheets to enhance the alignment and compactness of MXene layers. Incorporating a small amount of TaS 2 nanosheets, which carry negative charges, facilitates the alignment of PDA-modified MXene sheets during film assembly via electrostatic repulsion. This results in the fabrication of strong and well-ordered composite films with a synergistic effect between MXene and TaS 2 . The resultant MXene/TaS 2 (MXT) films exhibit high mechanical strength (92 MPa), toughness (2.49 MJ·m –3 ), excellent electrical conductivity (7932 S cm –1 ), electromagnetic interference (EMI), shielding effectiveness (SE) (62 dB), and superior in-plane thermal conductivity (53.19 W·m –1 ·K –1 ). In addition, MXT films demonstrate remarkable Joule heating performance and environmental stability.
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