一种新型的基于表面应力的生物机械传感器,利用光学传感系统对生物颗粒进行高灵敏度诊断。

IF 1.5 Q3 INSTRUMENTS & INSTRUMENTATION
Sensing and Imaging Pub Date : 2021-01-01 Epub Date: 2021-07-27 DOI:10.1007/s11220-021-00355-1
Mahdieh Khorsandifard, Kian Jafari, Arash Sheikhaleh
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引用次数: 3

摘要

本文提出了一种利用表面应力传感方法,连接高灵敏度光学传感系统的BioMEMS传感器,用于诊断各种类型的生物分子。MEMS换能器由固定-固定光束组成,其表面有固定的受体,并与环形谐振器(RR)滤波器相连。靶生物分子和受体之间的相互作用在光束上产生表面应力。这种应力引起梁的变形,从而引起梁的耦合系数的变化。因此,通过使用光学光电探测器测量,RR的透射光谱会发生变化。因此,通过分析光电探测器输出的响应,可以检测样品中目标生物分子的数量,并指定由特定疾病引起的污染,感染或生物颗粒的水平。采用有限元法(FEM)和时域有限差分法(FDTD)对生物传感器的MEMS功能特性和光学特性进行了设计和分析。所获得的器件功能特性表明,本发明的光学BioMEMS传感器可用于各种类型疾病的高灵敏度诊断及其进展水平。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A Proposal for a Novel Surface-Stress Based BioMEMS Sensor Using an Optical Sensing System for Highly Sensitive Diagnoses of Bio-particles.

A Proposal for a Novel Surface-Stress Based BioMEMS Sensor Using an Optical Sensing System for Highly Sensitive Diagnoses of Bio-particles.

A Proposal for a Novel Surface-Stress Based BioMEMS Sensor Using an Optical Sensing System for Highly Sensitive Diagnoses of Bio-particles.

A Proposal for a Novel Surface-Stress Based BioMEMS Sensor Using an Optical Sensing System for Highly Sensitive Diagnoses of Bio-particles.

In this paper, a BioMEMS sensor by using a surface-stress sensing approach, connected to a highly sensitive optical sensing system, is proposed to diagnose various types of biomolecules. The MEMS transducer is composed of a fixed-fixed beam with immobilized receptors on the surface which is connected to a Ring Resonator (RR) filter. The interaction between the target biomolecules and the receptors induces surface stresses on the beam. This stress results in the beam deformation which leads to changes in the coupling coefficient of the RR. Consequently, the transmission spectrum of the RR experiences changes, measured by using an optical photo-detector. Therefore, by analyzing the response of the photo-detector output, one can detect the number of target biomolecules in the sample and assign a level of contamination, infection or bioparticles, caused by the specific disease. Furthermore, the MEMS functional characteristics and the optical properties of the proposed biosensor are designed and analyzed respectively by using the finite element method (FEM) and the finite difference time domain (FDTD) approach. The obtained functional characteristics of the proposed device show that the present optical BioMEMS sensor can be used for highly sensitive diagnoses of various types of diseases and their progress level.

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来源期刊
Sensing and Imaging
Sensing and Imaging INSTRUMENTS & INSTRUMENTATION-
CiteScore
5.00
自引率
0.00%
发文量
31
期刊介绍: Sensing and Imaging: An International Journal publishes peer-reviewed theoretical and experimental papers in print and online covering sensing and imaging techniques, systems, networks, and applications in engineering, science and medicine. The journal scope is broad and multidisciplinary, covering subsurface and surface sensing, and other sensing areas. Subsurface and surface sensing involves detection, identification and classification of objects, structures and matter, respectively, under and at surfaces.
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