材料科学
电磁屏蔽
电磁干扰
复合数
电磁干扰
纳米技术
异质结
杰纳斯
纳米复合材料
热的
焦耳加热
光电子学
纳米颗粒
焦耳(编程语言)
石墨烯
数码产品
电子设备和系统的热管理
细菌纤维素
热稳定性
光热治疗
纳米材料
柔性电子器件
作者
Haitong Chen,Shihao Shang,Lei Zhang,Zhaoqing Li,Huiping Ji,Kepu Liu,Qian Wu,Xiaohui Zhao,Meiqi Long,Jinmei Wang,Jianlin Yuan,Wanxiang Zheng
标识
DOI:10.1021/acsami.5c18064
摘要
High Resolution Image Download MS PowerPoint Slide The increasing prevalence of high-frequency electromagnetic interference (EMI) and bacterial contamination in medical environments demands multifunctional shielding materials that integrate EMI shielding, thermal management, and antimicrobial properties. Herein, an asymmetric trilayer composite film is fabricated via in situ growth of CuS nanoparticles on bacterial cellulose (CuS@BC) and vacuum-assisted assembly with Ti 3 C 2 T x MXene and BC/Fe 3 O 4 layers. The resulting structure exhibits an exceptional EMI shielding effectiveness of 67.5 dB in the X-band, enabled by a synergistic “reflection–absorption–reabsorption” mechanism. The film also demonstrates dual-mode thermal management, achieving 72.6 °C under Joule heating (at 2.0 V) and 126.6 °C under NIR irradiation (808 nm, 1.0 W/cm 2 ). Furthermore, it shows broad-spectrum antibacterial efficacy exceeding 99.9% against both Staphylococcus aureus and Escherichia coli, without compromising shielding performance. This work provides a new paradigm for flexible multifunctional materials suited to advanced medical electronic applications.
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