Respiration Monitoring: From Molecular Reconstruction of Mesoscopic Functional Conductive Silk Fibrous Materials to Remote Respiration Monitoring (Small 26/2020),Small

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Respiration Monitoring: From Molecular Reconstruction of Mesoscopic Functional Conductive Silk Fibrous Materials to Remote Respiration Monitoring (Small 26/2020)
Small ( IF 13.3 ) Pub Date : 2020-07-02 , DOI: 10.1002/smll.202070147
Liyun Ma _{1,

2,

3} , Qiang Liu _{1,

4} , Ronghui Wu _{1,

2,

5} , Zhaohui Meng ₁ , Aniruddha Patil ₁ , Rui Yu ₁ , Yun Yang ₁ , Shuihong Zhu ₁ , Xuwei Fan ₆ , Chen Hou ₁ , Yanran Li ₁ , Wu Qiu ₁ , Lianfen Huang ₆ , Jun Wang ₂ , Naibo Lin ₁ , Yizao Wan ₄ , Jian Hu ₄ , Xiang Yang Liu _{1,

4}

Affiliation

In article number 2000203, Xiang Yang Liu and co‐workers meso‐reconstruct silkworm silk fibrous materials based on carbon nanotubes which give rise to conductive silk fibers, for the fabrication of silk flexible electronics. They have humidity dependent conductivity and can be developed into biocompatible electronic humidity sensors. The combination with cloud computation and big data leads to remote monitoring and diagnosis of respiration and other physiological conditions.

中文翻译：

呼吸监控：从介观功能性导电丝纤维材料的分子重构到远程呼吸监控（26/2020小）

在项编号2000203中，刘向阳及其同事以碳纳米管为基础，细观重建了蚕丝纤维材料，这种材料产生了导电丝纤维，用于制造丝绸柔性电子产品。它们具有与湿度相关的电导率，可以开发为生物相容性电子湿度传感器。云计算和大数据的结合导致对呼吸和其他生理状况的远程监控和诊断。

更新日期：2020-07-02

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