接口
数码产品
接口(物质)
计算机科学
纳米技术
工程类
电气工程
材料科学
计算机硬件
最大气泡压力法
气泡
并行计算
作者
Kewang Nan,Vivian R. Feig,Binbin Ying,Julia G. Howarth,Ziliang Kang,Yiyuan Yang,Giovanni Traverso
标识
DOI:10.1038/s41578-022-00477-2
摘要
The surface mucosa that lines many of our organs houses myriad biometric signals and, therefore, has great potential as a sensor–tissue interface for high-fidelity and long-term biosensing. However, progress is still nascent for mucosa-interfacing electronics owing to challenges with establishing robust sensor–tissue interfaces; device localization, retention and removal; and power and data transfer. This is in sharp contrast to the rapidly advancing field of skin-interfacing electronics, which are replacing traditional hospital visits with minimally invasive, real-time, continuous and untethered biosensing. This Review aims to bridge the gap between skin-interfacing electronics and mucosa-interfacing electronics systems through a comparison of the properties and functions of the skin and internal mucosal surfaces. The major physiological signals accessible through mucosa-lined organs are surveyed and design considerations for the next generation of mucosa-interfacing electronics are outlined based on state-of-the-art developments in bio-integrated electronics. With this Review, we aim to inspire hardware solutions that can serve as a foundation for developing personalized biosensing from the mucosa, a relatively uncharted field with great scientific and clinical potential. The surface mucosa that lines many of our organs hosts a diverse set of biometric signals. This Review compares present skin-interfacing and mucosa-interfacing electronics to inspire hardware solutions for developing devices for personalized biosensing from the mucosa.
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