Research of flexible sensor based on nanomaterial

Jiatong Wang
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Abstract

A flexible sensor is a sensor made of flexible materials, generally composed of three layers: base layer, sensing layer, and packaging layer, can be widely used in medical electronics, biological monitoring, wearable electronics and other fields. Compared with traditional electronic devices, flexible electronics have cheap substrates and can be attached to curved surfaces to achieve sensing functions, which attract researchers in different fields. In recent years, the development of nanotechnology and polymer materials has greatly promoted the innovation of flexible electronics. This paper focuses on the application of nanotechnology in flexible sensing. Through horizontal induction and analysis of nanotechnologies in polymer -based sensors, hydrogel sensors, self-powered sensors and other sensors, suggestions for continuous detection and clinical treatment of sensors are put forward vertically. Achieving the structure and intrinsic flexibility of the flexible sensor substrate, deposition of the micro-circuit onto the substrate, encapsulation without breaking the ductility condition, maximizing its conductive, thermal and mechanical response, self-powered, degradability and other properties that meet human needs are all the focus of the flexible electronics discussion. In this paper, the structure, response and drug delivery of the flexible sensor will be analyzed and discussed from the Angle of material.
基于纳米材料的柔性传感器研究
柔性传感器是由柔性材料制成的传感器,一般由基底层、传感层和封装层三层组成,可广泛应用于医疗电子、生物监测、可穿戴电子等领域。与传统电子器件相比,柔性电子器件具有基底廉价、可附着在曲面上实现传感功能等特点,吸引着不同领域的研究人员。近年来,纳米技术和高分子材料的发展极大地推动了柔性电子器件的创新。本文主要研究纳米技术在柔性传感中的应用。通过横向归纳和分析纳米技术在聚合物传感器、水凝胶传感器、自供电传感器等传感器中的应用,纵向提出传感器连续检测和临床治疗的建议。实现柔性传感器基板的结构和内在柔性,将微电路沉积到基板上,在不破坏延展性条件下进行封装,最大限度地提高其导电、热和机械响应、自供电、可降解等满足人类需求的性能,都是柔性电子学讨论的重点。本文将从材料的角度对柔性传感器的结构、响应和药物输送进行分析和讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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