Method for preparing semiconductor nano crystal of bio marker utilizing Raman signal

A Raman signal and biomarker technology, which is applied in the field of nanomaterials and biology, can solve the problems of tediousness, large background interference, and restrictions on the application of inorganic nanocrystals, and achieve the effect of resonance Raman signal enhancement

Inactive Publication Date: 2007-11-14
NORTHEAST NORMAL UNIVERSITY
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Problems solved by technology

However, there are also problems with fluorescent labeling of biomolecules by inorganic semiconductor nanocrystals. First, nanocrystals with fluorescent properties generally contain Cd, Pd, HgII-VI semiconductor nanocrystals, etc. These materials are generally environmental unfriendly, harmful to the organism itself
Second, when these materials are coupled with biomolecules, problems such as the phase transfer of nanocrystals and the docking of nanocrystals and biomolecules are involved. These processes are tedious and complicated, and fluorescent nanocrystals that can be applied to biomarkers can be obtained. Crystallization is not easy, which limits the application of inorganic nanocrystals
[0003] At present, the bioluminescent labeling method using dyes and quantum dots has shortcomings such as half-peak width, large background interference, and unfriendly environment. A New Method for Labeling Unknown Proteins or Nucleic Acids

Method used

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Embodiment Construction

[0014] 1. Preparation of ZnO / Au core-shell nanocrystals and their phase transfer

[0015] The precursor material of gold is HAuCl 4 , the reducing agent for reducing gold can be selected hydroquinone or sodium citrate. ZnO acts as a seed crystal, and Au nanocrystals grow on its surface. The specific test process is as follows: take 5 ~ 10ml 0.1M ZnO ethanol solution, put it into the volume and dilute it 10 times with absolute ethanol, and weigh HAuCl 4 , the ratio of the amount of its substance to the amount of ZnO is between 1:5 and 1:10, that is, the 0.05 to 0.2mM HAuCl 4 Dissolve in 10ml ethanol solution, weigh the reducing agent hydroquinone at the same time, the amount of the substance should be the same as that of HAuCl 4 In the same amount of the substance, the reducing agent was also dissolved in the ethanol solution. Then HAuCl 4 The ethanol solution and the hydroquinone ethanol solution are added dropwise to the rapidly stirred ZnO ethanol solution, and the solu...

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Abstract

This invention belongs to nano-materials and biotechnology fields, involving the preparation of nano-materials, nano-materials in the application of biomarkers. First synthesized in the ethanol the nanocrystals of different sizes, and secondly, reduced perchlorate material and metal were dissolved in ethanol, the solution will be prepared as a mother liquor by centrifugal separation, by adding organic allocation preparation of such a Raman signals in the semiconductor nanocrystals, and through electrostatic and biological molecular docking, the implementation of the markers of biological molecules. This invention produced plasma resonance, allowing semiconductor nanocrystals Resonance Raman signal enhancement. Because of the nanocrystalline metal surface with a group of organic molecules strong coordination role, the organisms can be stable, sound marker, and the further implementation of the use of fingerprint characteristics of semiconductor nanocrystals resonance Raman signal of multi-stage unknown molecular testing.

Description

technical field [0001] The invention belongs to the field of nanomaterials and biotechnology, and relates to the preparation of nanomaterials and the application of nanomaterials in biomarkers. Background technique [0002] The assembly of inorganic nanoparticles and biomolecules, and the use of the physical properties of inorganic nanoparticles to implement labeling of biomolecules have become international research frontiers. At present, the physical properties of inorganic nanomaterials used mainly include the plasmonic absorption and coloration of metals, the photoluminescent properties of semiconductor nanocrystals, and the magnetic properties of magnetic nanoparticles. These methods have played an important role in labeling and detecting the properties and activities of biomacromolecules. At present, many research groups in the world are committed to using inorganic fluorescent semiconductor nanocrystal labeling methods to replace organic molecular fluorescent labels....

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N33/533G01N21/65
Inventor 刘益春单桂晔邵长路
Owner NORTHEAST NORMAL UNIVERSITY
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