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Grate electrode modification method, grate-controlled graphene transistor biosensor and miRNA concentration detection method

A biosensor and modification method technology, applied in the field of miRNA-141 concentration detection and gate-controlled graphene transistor biosensors, can solve the problems of poor device stability and complex channel modification, and achieve high sensitivity and wide linear range. Effect

Active Publication Date: 2021-11-16
HUBEI UNIV
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  • Claims
  • Application Information

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Problems solved by technology

Since the transistor itself has an amplification function, it can be detected through the transistor. At present, the solution gate transistor is mainly detected through the interaction between the analyte and the channel, so the channel modification is more complicated, which makes the stability of the device poor.

Method used

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  • Grate electrode modification method, grate-controlled graphene transistor biosensor and miRNA concentration detection method
  • Grate electrode modification method, grate-controlled graphene transistor biosensor and miRNA concentration detection method
  • Grate electrode modification method, grate-controlled graphene transistor biosensor and miRNA concentration detection method

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preparation example Construction

[0078] The embodiment of the present application also provides a preparation method of the above-mentioned gate-controlled graphene transistor biosensor, comprising the following steps:

[0079] S1. Place the glass substrate in ethanol and acetone for ultrasonic treatment, clean the glass, and then use N 2 Blow dry for later use;

[0080] S2. Putting the glass sheet substrate into a mask plate for evaporation to form a source electrode and a drain electrode;

[0081] S3, take copper foil graphene (that is, graphene is grown on copper foil by CVD, purchased from Xianfeng Nano Co., Ltd.), and spin-coat polymethyl methacrylate on the graphene surface;

[0082] S4, 10g of copper sulfate, 50mL of hydrochloric acid and 50mL of water were prepared as an etching solution, and the copper foil graphene was etched in the etching solution to remove the copper foil, and then the graphene was transferred to the communication by a wet transfer method , and then remove the polymethyl methac...

Embodiment 1

[0087] The embodiment of the present application provides a method for preparing a gate-controlled graphene transistor biosensor comprising the following steps:

[0088] S1. Provide a glass substrate, prepare source and drain electrodes, and graphene on the glass substrate according to the above method;

[0089] S2. Take the glassy carbon electrode as the grid electrode, polish the surface of the glassy carbon electrode, and then clean it with deionized water;

[0090] S3, adding chitosan to 0.1 mg / mL streptavidin solution to obtain a first mixture, wherein the mass concentration of chitosan in the first mixture is 2%;

[0091] S4. Take 10 μL of the first mixture and add it dropwise to the surface of the glassy carbon electrode in S2, so that the surface of the glassy carbon electrode will naturally form a film (that is, a CHIT / SA film, forming a CHIT / SA modified gate electrode), and then dropwise add 10 μL, 5 μM The HP-2 nucleic acid solution was incubated for 1 hour and the...

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Abstract

The invention provides a gate electrode modification method, a gate-controlled graphene transistor biosensor and a miRNA concentration detection method. The gate electrode modification method comprises the following steps: adding chitosan into a streptavidin solution to obtain a first mixture; dropwise adding the first mixture onto a gate electrode, and then dropwise adding an HP-2 nucleic acid solution for cultivation to obtain an HP-2 modified gate electrode; mixing a target object miRNA141 and ST / HP-1 hybrid nucleic acid, and then adding T7 exonuclease for treatment to obtain a second mixture; and dropwise adding the second mixture to an HP-2 modified gate electrode. According to the gate electrode modification method, the second mixture is dropped on the HP-2 modified gate electrode, a single chain in the solution is captured by the HP-2 modified electrode, and the second mixture modified electrode is formed. In the enzyme digestion circulation, the T7 exonuclease (T7exo) can be used for replacing and amplifying the miRNA-141.

Description

technical field [0001] The invention relates to the technical fields of chemical detection and biosensing, in particular to a gate electrode modification method, a gate-controlled graphene transistor biosensor and a miRNA-141 concentration detection method. Background technique [0002] Highly stable circulating microRNAs (miRNAs) have emerged as the most promising and minimally invasive cancer biomarkers and are widely present in animals, plants, and microorganisms. It has the following two characteristics: 1) short non-coding endogenous RNA molecules (usually 19-22 nucleotides); 2) can regulate the expression of specific genes at the post-transcriptional level (mainly through complementary binding inhibition or degradation Messenger RNA (mRNA) acts as a regulator at the post-transcriptional level). And their abnormal expression is often observed in diseases such as Parkinson's disease, major depression, stroke and various cancers. A series of miRNAs, including miRNA-141,...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N27/414
CPCG01N27/4145G01N27/4146Y02A50/30
Inventor 何汉平罗极戈芷琪曹磊常钢张修华王升富
Owner HUBEI UNIV
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