多孔硅 Bloch 表面和亚表面波结构，用于同时检测小分子和大分子。

Porous silicon Bloch surface and sub-surface wave structure for simultaneous detection of small and large molecules.

机构信息

Department of Electrical Engineering and Computer Science, Vanderbilt University, Nashville, TN 37235, USA.

Department of Physics, Northwest Nazarene University, Nampa, ID 83686, USA.

出版信息

Nanoscale Res Lett. 2014 Aug 7;9(1):383. doi: 10.1186/1556-276X-9-383. eCollection 2014.

DOI:10.1186/1556-276X-9-383

PMID:25136285

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4128542/

Abstract

A porous silicon (PSi) Bloch surface wave (BSW) and Bloch sub-surface wave (BSSW) composite biosensor is designed and used for the size-selective detection of both small and large molecules. The BSW/BSSW structure consists of a periodic stack of high and low refractive index PSi layers and a reduced optical thickness surface layer that gives rise to a BSW with an evanescent tail that extends above the surface to enable the detection of large surface-bound molecules. Small molecules were detected in the sensor by the BSSW, which is a large electric field intensity spatially localized to a desired region of the Bragg mirror and is generated by the implementation of a step or gradient refractive index profile within the Bragg mirror. The step and gradient BSW/BSSW sensors are designed to maximize both resonance reflectance intensity and sensitivity to large molecules. Size-selective detection of large molecules including latex nanospheres and the M13KO7 bacteriophage as well as small chemical linker molecules is reported.

摘要

一种多孔硅（PSi）布洛赫表面波（BSW）和布洛赫次表面波（BSSW）复合生物传感器被设计用于对小分子和大分子进行选择性检测。BSW/BSSW 结构由高和低折射率 PSi 层的周期性堆叠和减少的光学厚度表面层组成，产生具有渐逝尾部的 BSW，该尾部延伸到表面上方，以能够检测大的表面结合分子。小分子通过 BSSW 在传感器中被检测到，BSSW 是一种在布拉格镜的期望区域内空间局域的大电场强度，并且通过在布拉格镜内实现阶跃或梯度折射率分布来产生。设计阶跃和梯度 BSW/BSSW 传感器以最大化共振反射强度和对大分子的灵敏度。报道了对包括乳胶纳米球和 M13KO7 噬菌体在内的大分子以及小分子化学连接子分子的尺寸选择性检测。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d09/4128542/2fd005f51308/1556-276X-9-383-1.jpg

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多孔硅 Bloch 表面和亚表面波结构，用于同时检测小分子和大分子。

Porous silicon Bloch surface and sub-surface wave structure for simultaneous detection of small and large molecules.

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