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Automatic bacterium detection system and method based on digital microfluidics

A digital microfluidic and bacterial detection technology, applied in measuring devices, instruments, fluorescence/phosphorescence, etc., to achieve the effect of low-cost, fast and automatic detection

Pending Publication Date: 2022-03-01
SHANDONG NORMAL UNIV
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  • Claims
  • Application Information

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Problems solved by technology

[0006] However, there is no research on the use of digital microfluidic technology for automatic detection to isolate and enrich bacteria in samples. Therefore, there is an urgent need for an automated bacterial detection system and method based on digital microfluidics.

Method used

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  • Automatic bacterium detection system and method based on digital microfluidics
  • Automatic bacterium detection system and method based on digital microfluidics
  • Automatic bacterium detection system and method based on digital microfluidics

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Embodiment approach

[0057] Photomultiplier tube (PMT) power supply control circuit such as image 3 As shown, PMT needs to provide ±12V power supply for its power supply, and this system uses a power supply of ±5V power supply, so the power supply module produced by Anshi Jie Company is added to the power input end to convert the ±5V input voltage to ±15V. Among them, the +15V voltage is input into the three-terminal voltage regulator integrated chip L7812CV, so that the +15V voltage is converted into a +12V voltage, and at the same time, the obtained -15V voltage is input into the three-terminal voltage regulator integrated chip L7912CV, so that the -15V voltage is converted into a -12V voltage , the generated 12V supplies power to the PMT after being output by the Zener diode.

[0058] Photomultiplier tube (PMT) gain control circuit such as Figure 4 As shown, different fluorescence intensities need to be matched with different PMT gains to meet different sensitivities. The system selected

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Abstract

The invention provides an automatic bacteria detection system and method based on digital microfluidics, and the system comprises a digital microfluidic chip which is used for separating and enriching bacteria in a sample; the light path acquisition module is arranged right above the digital micro-fluidic chip and is used for acquiring light signals; the magnetic field control module is used for controlling activation and closing of a magnetic field when the magnetic immune organisms emit light; the signal conditioning module is used for conditioning the optical signals acquired by the optical path acquisition module; and the chip control circuit is respectively connected with the digital micro-fluidic chip and the light path acquisition module. According to the present invention, by using the digital microfluidic technology, the bacteria are rapidly and automatically detected, the liquid drop generation, the splitting and the transportation are completed on the basis of the control to achieve the movement of the single or the plurality of the discrete liquid drops on the chip plane, and the advantages of miniaturization, integration, automation, parallelization, high efficiency and low cost are provided.

Description

technical field [0001] The invention relates to the technical field of digital microfluidics, in particular to an automatic bacteria detection system and method based on digital microfluidics. Background technique [0002] The statements in this section merely provide background information related to the present invention and do not necessarily constitute prior art. [0003] Pathogens, chemical contamination, and illegal food additives are the three major sources of food safety problems, with pathogen contamination caused by pathogenic bacteria being the primary concern. The most effective means of reducing the threat of pathogens is the timely and accurate detection of pathogens in food. The current detection method stipulated in the national standard is the traditional culture method. The detection result of this method is accurate and the cost is relatively cheap. However, the detection time is 24-48 hours, which is time-consuming and laborious. Obviously, it cannot mee...

Claims

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Application Information

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IPC IPC(8): G01N21/64
CPCG01N21/6428
Inventor 岳伟伟于月豪程康宁张亚南丁玥
Owner SHANDONG NORMAL UNIV
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