期刊文献+
共找到1篇文章
< 1 >
每页显示 20 50 100
Flexible,breathable,and reinforced ultra-thin Cu/PLLA porous-fibrous membranes for thermal management and electromagnetic interference shielding
1
作者 Jinlin Chang Chen Meng +9 位作者 Bowen Shi wenyuan Wei Renzhi Li Jinmin Meng haobin wen Xiangyu Wang Jun Song Zhirun Hu Zekun Liu Jiashen Li 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2023年第30期150-160,共11页
Electromagnetic interference shielding and thermal management by wearable devices show great po-tential in emerging digital healthcare.Conventional metal films implementing the functions must sacri-fice either flexibi... Electromagnetic interference shielding and thermal management by wearable devices show great po-tential in emerging digital healthcare.Conventional metal films implementing the functions must sacri-fice either flexibility or permeability,which is far from optimal in practical applications.In this work,an ultra-thin(15μm),flexible,and porous Cu/PLLA fibrous membrane is developed by depositing cop-per particles on the polymer substrate.With novel acetone&heat treatment procedure,the mem-brane is considerably stronger while maintaining the porous fibre structure.Its fantastic breathabil-ity and super high electrical conductivity(9471.8130 S/cm)enable the composites to have fast electri-cal heating characteristics and excellent thermal conductivity for effective thermal management.Mean-while,the porous polymer substrate structure greatly enhances the diffusion of conductive substances and increases the electromagnetic interference shielding effectiveness of the membranes(7797.98 dB cm^(2)/g at the H band and 8072.73 dB cm^(2)/g at the Ku band respectively).The composites present high flexibility,breathability,and strength with the functions of thermal management and electromag-netic shielding,showing great potential for future portable electronic devices and wearable integrated garments. 展开更多
关键词 Electromagnetic interference shielding EFFECTIVENESS Thermal management Thin films Metal-matrix composites
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部