High-accuracy microbial detection chip

A microbial detection, high-precision technology, applied in enzymology/microbiology devices, biomass post-processing, biomass pre-treatment, etc., can solve the problems of fluorescence signal interference, mixing, exceeding the photosensitive range, etc., to achieve fluorescence detection Accurate results, good wetting effect

Active Publication Date: 2020-01-03
北京陆桥技术股份有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In this process, when the fluorescent signal from the microsphere reaches the spherical interface, due to the difference in the refractive index of the two media, there will be a change in the direction of propagation, such as convergence or further divergence; and this phenomenon It will lead to the interference of the fluorescent signals of adjacent micro-reaction chambers, and even the fluorescent signals of two adjacent micro-reaction chambers are mixed into the light spots captured by the CCD camera, making it difficult to accurately distinguish the actual number of fluorescent signals
On the other hand, this change in the propagation direction of the radiated light may also cause the fluorescent signals emitted by some micro-reaction chambers in the entire micro-reaction chamber array to exceed the photosensitive range of the CCD camera and cannot be captured.

Method used

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  • High-accuracy microbial detection chip
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  • High-accuracy microbial detection chip

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] Such as figure 2 As shown, a high-precision microbial detection chip includes a cover layer 2, a microchannel layer 3, a microreaction chamber layer 4 and a base layer 5 stacked sequentially from top to bottom; the left and right sides of the cover layer 2 are respectively A sample inlet 21 and an outlet 22 are provided; the microchannel layer 3 has a receiving channel 31 and a distribution channel 32 and a gradually expanding channel 33 connecting the two; the receiving channel 31 communicates with the sample inlet 21, and the The distribution channel 32 communicates with the outlet 22; the micro-reaction chamber layer 4 is arranged with arrayed micro-reaction chambers 41, and the size of the distribution channel 32 can at least cover the array of micro-reaction chambers 41; the micro-reaction chamber layer 4 The lower part is provided with a base layer 5 .

[0033] Preferably, on the micro-reaction chamber layer 4, corresponding to the diverging channel 33, a number...

Embodiment 2

[0039] The difference from Example 1 is that the micro-reaction chamber layer 4 is made of hydrophobic material. First, attach or coat a peelable protective film layer on the upper and lower surfaces of the hydrophobic micro-reaction chamber layer 4 and cure the protective film layer; Form an array of micro-reaction chambers 41 on 4; carry out hydrophilic modification on the micro-reaction chamber layer 4 by coating a hydrophilic coating or acid corrosion; tear off the protective film layer to obtain micro-reaction chambers 41 with hydrophilic side walls And a micro-reaction chamber layer 4 with hydrophobic upper and lower surfaces.

Embodiment 3

[0041] Such as figure 1 , 3 As shown in -6, the difference from Embodiments 1 and 2 is that the wall surface of the micro-reaction chamber 41 has variable surface properties.

[0042] Wherein, there is an annular electrode 411 corresponding to the periphery of the micro reaction chamber 41 on the sidewall of the micro reaction chamber 41 and the lower surface of the micro reaction chamber layer 4; the annular electrodes 411 of any two adjacent micro reaction chambers 41 411 are disconnected from each other; the ring electrode 411 surrounds the side wall of the whole micro reaction chamber 41; the upper surface of the ring electrode 411 and the micro reaction chamber layer 4 has a hydrophobic coating 412; the hydrophobic coating 412 Sealing the peripheral wall and top of the ring electrode 411, but not sealing the lower surface of the micro reaction chamber layer 4, so that the ring electrode 411 is exposed at the lower surface of the micro reaction chamber layer 4; Base laye...

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Abstract

The invention provides a high-accuracy microbial detection chip. Through arranging sidewalls of microreaction chambers as hydrophilic surfaces, forms of sample liquid droplets in the microreaction chambers are changed, and the sample liquid droplets can have flattened oil-water interfaces, so that the degree of convergence or divergence of radiated light at the oil-water interfaces is lowered, then, the problem of mutual interference of fluorescence signals of adjacent microreaction chambers is weakened, and a fluorescent detection result can be more accurate; and further, incomplete gas exhausting due to the fact that oily filling liquid difficultly enters the microreaction chambers during gas exhausting and a bubble optical false appearance caused by the incomplete gas exhausting are prevented. The invention further provides a microreaction chamber sidewall with changeable surface properties, by virtue of a ring electrode and a hydrophobic coating wrapping the outside of the ring electrode, surface characteristics of the microreaction chamber sidewall can be selectively adjusted according to an on-off state between the ring electrode and a round point electrode, so that the microreaction chamber sidewall is allowed to form good wetting with the oily filling liquid during gas exhausting and form good wetting with the aqueous sample liquid droplets during sample introduction.

Description

technical field [0001] The present application relates to a microfluidic chip. Specifically, it relates to a high-precision PCR detection chip capable of reducing optical interference. Background technique [0002] The PCR chip is currently an important means for microbial detection, which can realize rapid amplification, labeling and quantitative detection of nucleic acids through various functional units integrated on a chip. At present, the mainstream PCR chip detection methods need to rely on optical means in the quantification step, such as fluorescent markers and CCD cameras to obtain specific reaction results. Existing PCR chips have been able to achieve relatively accurate quantitative detection, such as digital PCR detection methods. However, precise does not mean accurate. The PCR chip usually has an arrayed micro-reaction chamber, and samples are distributed in the arrayed micro-reaction chamber in the form of micro-droplets. By irradiating excitation light to ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12M1/34C12M1/00
CPCB01L3/502784B01L3/502707B01L2200/0684B01L2300/0887B01L2300/165B01L2400/0427
Inventor 李倩
Owner 北京陆桥技术股份有限公司
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