Bio-integrated electronics

J. Rogers
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引用次数: 8

Abstract

Biology is curved, soft and elastic; silicon wafers are not. Semiconductor technologies that can bridge this gap in form and mechanics will create new opportunities in devices that require intimate integration with the human body. This paper provides an overview of ideas for electronics, sensors and actuators that offer the performance of state-of-the-art, wafer-based systems but with the mechanical properties of a rubber band. We explain the underlying materials science and mechanics of these approaches, and illustrate their use in bio-integrated, `tissue-like' devices with unique diagnostic and therapeutic capabilities, when conformally laminated onto the heart, brain or skin. Demonstrations in animal models and in humans illustrate the diverse functionality offered by these technologies, and suggest several clinically relevant applications.
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Bio-integrated电子
生物是弯曲的、柔软的、有弹性的;硅晶圆片则不然。半导体技术可以弥补这种形式和力学上的差距,这将为需要与人体紧密结合的设备创造新的机会。本文概述了电子、传感器和执行器的想法,这些想法提供了最先进的、基于晶圆的系统的性能,但具有橡皮筋的机械性能。我们解释了这些方法的潜在材料科学和力学,并说明了它们在生物集成、具有独特诊断和治疗能力的“类组织”设备中的应用,当层压在心脏、大脑或皮肤上时。动物模型和人体的演示说明了这些技术提供的多种功能,并提出了几种临床相关应用。
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