无线
计算机科学
数码产品
可穿戴技术
全向天线
网格
天线(收音机)
电子工程
物联网
透明度(行为)
电气工程
编码(社会科学)
柔性电子器件
导电体
偶极子天线
仿真
定向天线
透射率
钥匙(锁)
数字电子学
导电油墨
电子线路
蓝牙
移动设备
材料科学
作者
Hengpei Su,Qiang Xiao,Rui Jia,Z Xia,Jingyu Wang,Tianyue Xu,Chendong Zhao,Chunjie Li,Yubin Cao,Chuanfang Zhang
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2026-06-12
卷期号:12 (24): eaee8104-eaee8104
标识
DOI:10.1126/sciadv.aee8104
摘要
Next-generation internet of things (IoT) wireless electronics require antennas that are conformal, transparent, and electromagnetically efficient, yet these attributes form an impossible trinity. Here, we realize the first Ti 3 C 2 T x MXene–based conformal, transparent, and high-performance antenna through an optimized nanoimprint lithography-blading technique. Nanoimprinted MXene grid transparent conductive film (TCF) achieves an exceptional balance of low sheet resistance (4.32 ohms per square) at high transmittance (~89.1%) with promising flexibility. Two representative scenarios in IoT networks are selected to demonstrate the versatility of this TCF. For personal devices, the efficient MXene transparent dipole antenna enables a quasi-transparent wireless wearable device for long-distance and real-time communication (>30 meters). For fixed infrastructure, MXene-based digital coding metasurface enables high-quality wireless communication, maintaining a low bit error rate (~0.15%) even in a curved state. This work establishes MXene as a versatile platform that successfully merges conformal transparency and high electromagnetic performance, paving the way for next-generation imperceptible IoT wireless systems.
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