Multifunctional Ti3C2Tx MXene Composite Hydrogels with Strain Sensitivity toward Absorption-Dominated Electromagnetic- Interference Shielding

被引:230
|
作者
Zhu, Yunyi [1 ]
Liu, Ji [1 ,2 ,3 ,5 ]
Guo, Tong [4 ]
Wang, Jing Jing [2 ,3 ]
Tang, Xiuzhi [4 ]
Nicolosi, Valeria [2 ,3 ,5 ,6 ]
机构
[1] Hunan Univ, Coll Mat Sci & Engn, Changsha 410082, Hunan, Peoples R China
[2] Trinity Coll Dublin, Ctr Res Adapt Nanostruct & Nanodevices CRANN, Dublin 2, Ireland
[3] Trinity Coll Dublin, Adv Mat Bioengn Res Ctr AMBER, Dublin 2, Ireland
[4] Cent South Univ, Sch Aeronaut & Astronaut, Changsha 410083, Hunan, Peoples R China
[5] Trinity Coll Dublin, Form Res Ctr 1, Dublin 2, Ireland
[6] Trinity Coll Dublin, Sch Chem, Dublin 2, Ireland
来源
ACS NANO | 2021年 / 15卷 / 01期
基金
中国国家自然科学基金; 欧洲研究理事会; 爱尔兰科学基金会;
关键词
MXene; composite; multifunctional hydrogel; electromagnetic interference shielding; terahertz absorption;
D O I
10.1021/acsnano.0c08830
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
The fast development of terahertz technologies demands high-performance electromagnetic interference (EMI) shielding materials to create safe electromagnetic environments. Despite tremendous breakthroughs in achieving superb shielding efficiency (SE), conventional shielding materials have high reflectivity and cannot be re-edited or recycled once formed, resulting in detrimental secondary electromagnetic pollution and poor adaptability. Herein, a hydrogel-type shielding material incorporating MXene and poly(acrylic acid) is fabricated through a biomineralization-inspired assembly route. The composite hydrogel exhibits excellent stretchability and recyclability, favorable shape adaptability and adhesiveness, and fast self-healing capability, demonstrating great application flexibility and reliability. More interestingly, the shielding performance of the hydrogel shows absorption-dominated feature due to the combination of the porous structure, moderate conductivity, and internal water-rich environment. High EMI SE of 45.3 dB and broad effective absorption bandwidth (0.2-2.0 THz) with excellent refection loss of 23.2 dB can be simultaneously achieved in an extremely thin hydrogel (0.13 mm). Furthermore, such hydrogel demonstrates sensitive deformation responses and can be used as an on-skin sensor. This work provides not only an alternative strategy for designing next-generation EMI shielding material but also a highly efficient and convenient method for fabricating MXene composite on macroscopic scales.
引用
收藏
页码:1465 / 1474
页数:10
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