基于硅绝缘体光子线的倏逝场多通道生物传感器阵列“片上实验室”装置

Yaping Zhang
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引用次数: 2

摘要

基于作者在英国获得的生物传感器专利,提出了一系列基于SOI光子线的倏逝场多通道生物传感器阵列“片上实验室”器件的配置和设计。这项工作采用了最先进的芯片设计、制造和表征技术,这些技术是从电信应用中发展出来的。该芯片设计利用最灵敏的检测方法,即倏逝场和干涉测量技术,并实现多模干涉仪(MMI)技术,将多通道生物传感器阵列集成到单个芯片上。该设计能够在极低浓度下对一个或多个测试样品中的各种分析物和分子相互作用进行无标签,时域实时并行检测和鉴定,同时和瞬间具有极高的检测精度和灵敏度。例如,可以实现在1×10−12 M或以下的低浓度分子的检测极限。这对应于一个有效的折射率分辨率在10−8或更好的量级。该器件是鲁棒的、全光的、高度可扩展的、节能的动态传感器件。如果需要,单个传感器可以单独寻址,并内置内部参考通道集成在芯片上。传感和参考通道可以分组在一个阵列中,以允许最大的灵活性,在一个样品或多个样品同时和瞬间测量单个分析物。这项研究和开发工作可能为各种应用领域的下一代低成本批量生产多通道生物传感器阵列“芯片实验室”仪器开发打开大门,并为现代分析技术的革命提供了一条新的道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Silicon on Insulator photonic wire based evanescent field multi-channelled biosensor array “Lab on a Chip” devices
A series of Silicon on Insulator (SOI) photonic wire based evanescent field multi-channelled biosensor array “Lab on a Chip” device configurations and designs are presented, which are based on the author's biosensor patent granted in the UK. This work employs the most advanced chip design, fabrication and characterisation technologies developed from the telecom applications. The chip design capitalises on the most sensitive detection method, i.e. the evanescence field and interferometry technology, and implements the multi-mode interferometer (MMI) technology to integrate the multi-channelled biosensor arrays onto a single chip. This design enables the label-free, time domain real time parallel detection and identification of various analytes and molecular interactions in one or more test samples at extremely low concentrations, with extraordinarily high accuracy and sensitivity of detection simultaneously and instantaneously. For example, the limit of detection of low concentrations of molecules at or even below 1×10−12 M can be achieved. This corresponds to an effective refractive index resolution at a magnitude of 10−8 or better. The devices are robust, all-optical, highly scalable, energy efficient dynamic sensing devices. Individual sensor can be addressed separately if wish, and with built-in internal reference channels integrated on chip. Sensing and reference channels can be grouped in an array to allow maximum flexibility in measuring individual analytes in a sample or a number of samples simultaneously and instantaneously. This research and development work could potentially open the door to the next generation of low-cost mass production evanescent field multi-channelled biosensor array “Lab on a Chip” instrumentation development for various application fields, and provide a novel way forward towards revolutionising modern analytical technology.
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