Optimization of Novel 2D Material Based SPR Biosensor Using Machine Learning

IF 3.7 4区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS
Shobhit K. Patel;Jaymit Surve;Abdullah Baz;Yagnesh Parmar
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引用次数: 0

Abstract

Biosensors are needed for today’s health monitoring system for detecting different biomolecules. Graphene is a monolayer material that can be utilized to sense biomolecules and design biosensors. We have proposed a Graphene-Gold-Silver hybrid structure design based on Zinc Oxide which gives sensitive performance to detect hemoglobin biomolecules. The advanced biosensor designed based on this hybrid structure shows the highest sensitivity of 1000 nm/RIU which is far better concerning similar structure previously analyzed. The graphene-gold-silver hybrid structure is presented for its possible reflectance results and electric field results. The E-field results match well with the reflectance results given by the sensitive hybrid structure. The sensing biomolecules are presented above the structure where a combination of graphene-gold-silver hybrid structure improves the sensitivity to a great extent. The optimized parameters are obtained by applying variations in the physical parameters of the design. The machine learning algorithm employed for reflectance prediction shows a high prediction accuracy and can be utilized for simulation resource reduction. The proposed biosensor can be used in real-time hemoglobin monitoring.
利用机器学习优化基于二维材料的新型 SPR 生物传感器。
当今的健康监测系统需要生物传感器来检测不同的生物分子。石墨烯是一种单层材料,可用于感知生物分子和设计生物传感器。我们在氧化锌的基础上提出了一种石墨烯-金-银混合结构设计,它具有检测血红蛋白生物分子的灵敏性能。基于这种混合结构设计的先进生物传感器显示出 1000 nm/RIU 的最高灵敏度,远远优于之前分析过的类似结构。石墨烯-金-银杂交结构展示了其可能的反射结果和电场结果。电场结果与敏感混合结构的反射结果非常吻合。在该结构上方展示了传感生物分子,其中石墨烯-金-银混合结构的组合在很大程度上提高了灵敏度。通过改变设计的物理参数可以获得优化参数。用于反射率预测的机器学习算法显示出很高的预测精度,可用于减少模拟资源。所提出的生物传感器可用于实时血红蛋白监测。
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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来源期刊
IEEE Transactions on NanoBioscience
IEEE Transactions on NanoBioscience 工程技术-纳米科技
CiteScore
7.00
自引率
5.10%
发文量
197
审稿时长
>12 weeks
期刊介绍: The IEEE Transactions on NanoBioscience reports on original, innovative and interdisciplinary work on all aspects of molecular systems, cellular systems, and tissues (including molecular electronics). Topics covered in the journal focus on a broad spectrum of aspects, both on foundations and on applications. Specifically, methods and techniques, experimental aspects, design and implementation, instrumentation and laboratory equipment, clinical aspects, hardware and software data acquisition and analysis and computer based modelling are covered (based on traditional or high performance computing - parallel computers or computer networks).
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