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Nanochannel detecting antigen-antibody specific binding and preparing method and detecting method thereof

A nanochannel and antibody technology, applied in the application of thermal effects to detect fluid flow, separation methods, chemical instruments and methods, etc., can solve problems such as inability to directly determine antigen molecules, inability to continuously detect antigens, and inability to effectively distinguish collision signals. Low cost, lower detection cost, high sensitivity effect

Active Publication Date: 2016-08-17
SOUTHEAST UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The currently prepared nanopores generally have several problems in the detection of antigens and antibodies: 1. The ion current blocking signal when the antigen molecule passes through the nanochannel and the collision signal caused by the movement of the antigen molecule to the vicinity of the pore cannot be effectively distinguished
2. It is impossible to directly judge whether the antigen molecule passes through the hole from the change of the ion current signal
3. Antigen detection and antigen / antibody conjugate detection cannot be performed continuously, the experimental operation is complicated, and it is difficult to guarantee the accuracy of the experiment

Method used

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  • Nanochannel detecting antigen-antibody specific binding and preparing method and detecting method thereof
  • Nanochannel detecting antigen-antibody specific binding and preparing method and detecting method thereof

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Embodiment Construction

[0023] The present invention will be further described below in conjunction with the accompanying drawings.

[0024] Such as figure 1 As shown, a nanochannel with a nanocage structure, including a top SiN thin film layer in a sandwich structure, a middle SiO 2 interlayer and bottom SiN film layer; the top SiN film layer is The film thickness of the bottom SiN film layer is Intermediate SiO 2 The thickness of the interlayer is The top SiN film layer is processed with a small nanopore whose hole area is slightly larger than the largest cross-section of the antigen to be tested and smaller than the minimum cross-section of the antibody to be tested, and a small nanopore is processed on the bottom SiN film layer that is axially aligned with the small nanopore. A large nanopore with a pore diameter larger than a small nanopore, and the SiO between the small nanopore and the large nanopore 2 Corroded into hollow cavities, the small nanopores, hollow cavities and large nanopo...

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Abstract

The invention provides a nanochannel with a nanocage structure. The nanochannel comprises a top SiN film layer, a middle SiO2 interlayer and a bottom SiN film layer which form a sandwich structure, wherein a small nanopore with area slightly larger than the maximum sectional area of antigen to be detected and smaller than the minimum sectional area of antibody to be detected is machined on the top SiN film layer, a large nanopore with diameter larger than that of the small nanopore is machined on the bottom SiN film layer and located at a position aligned with the small nanopore in the axial direction, and SiO2 between the small nanopore and the large nanopore is corroded into a hollow nanocage structure; two liquid bath units filled with ionic solution are connected to the two ends of the nanochannel with a nanocage structure, and the antigen and the antibody are added into the same liquid bath next to the small nanohole. When ionic current change is detected under both forward and reverse voltage, it is concluded that specific binding of the antigen and the antibody is not achieved. When ionic current change is detected under forward voltage only, it is concluded that specific binding of the antigen and the antibody is achieved, and then identifying detection of antigen or antibody molecules can be achieved.

Description

technical field [0001] The invention relates to the preparation of a nanochannel with a novel nanocage structure, by comparing the ion current blocking signal caused by a single antigen molecule passing through the nanochannel and the collision signal caused when the antigen / antibody conjugate moves to the vicinity of the nanopore , to achieve the purpose of detection and identification of a certain antigen / antibody specific binding. Background technique [0002] Currently, solid-state nanopores are mainly 3 N 4 , SiO 2 、Al 2 o 3 , graphene, MoS 2 prepared on thin films. The shape of the prepared nanopore can be divided into two types: one is the nanopore formed on a thin film with a thickness of more than ten nanometers, and its side shape is hourglass-shaped or cylindrical; the other is formed on a single-layer graphene 、MoS 2 Fabricate nanopores on two-dimensional materials. The processing of the above nanopores generally involves the following micro-manufacturin...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N33/487B81B1/00
CPCB81B1/004G01N33/48721
Inventor 沙菁石鸿佼陈云飞袁志山
Owner SOUTHEAST UNIV
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