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Dissolved oxygen detection device based on micro-fluidic chip

A microfluidic chip, dissolved oxygen detection technology, applied in measuring devices, laboratory containers, material analysis by electromagnetic means, etc., can solve the problems of oxygen consumption, damage, blockage of oxygen-permeable membrane, etc. Accuracy, saving manpower and material resources

Pending Publication Date: 2020-11-17
JIANGSU POLYTECHNIC COLLEGE OF AGRI & FORESTRY
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  • Abstract
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  • Application Information

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Problems solved by technology

However, because its oxygen-permeable membrane and electrodes are easy to age, when the water sample contains algae, sulfide, carbonate, oil and other substances, the oxygen-permeable membrane will be blocked or damaged, and it needs to be cleaned and protected. Oxygen concentration is determined by the oxidation-reduction reaction of the electrode itself under the action of oxygen. Oxygen is consumed during the measurement process, so the sample must be stirred continuously during the measurement process, and the electrolyte needs to be replaced regularly, otherwise its measurement accuracy and response time will be greatly affected

Method used

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Embodiment Construction

[0016] The technical solution of the present invention will be further described below in conjunction with the accompanying drawings.

[0017] Such as figure 1 and figure 2 As shown, the center of the microfluidic chip sensor is provided with a closed detection cavity composed of upper and lower layers, the upper cavity 1 and the lower cavity 2, an oxygen permeable membrane 3 is between the two layers, and the side of the upper cavity 1 There are symmetrical liquid inlet pipes 11 and inlets 12 for the solution to be tested, liquid outlet pipes 13 and outlets 14 for the solution to be tested, microelectrodes 4 are provided in the lower cavity 2 and symmetrical electrolyte liquid inlet pipes are provided on the side of the chamber 21 and inlet 22, electrolyte outlet pipe 23 and outlet 24, the liquid inlet pipe 11 and outlet pipe 13 of the solution to be tested in the upper chamber 1 and the electrolyte inlet pipe 21 and outlet pipe 23 of the lower chamber 2 are in the form of ...

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Abstract

The invention discloses a dissolved oxygen detection device based on a micro-fluidic chip, which comprises a control circuit, a detection circuit and a micro-fluidic chip sensor; the center of the micro-fluidic chip sensor is provided with a closed detection cavity formed by an upper layer and a lower layer, and an oxygen permeation membrane is arranged between the upper layer and the lower layer;a to-be-detected solution inlet pipe and a to-be-detected solution outlet pipe are symmetrically arranged on the side edge of the upper-layer cavity, a microelectrode is arranged in the lower-layer cavity, an electrolyte inlet pipe and an electrolyte outlet pipe are symmetrically arranged on the side edge of the cavity, the microelectrode is connected with a detection circuit for detecting current, and a current signal is fed back to the control circuit. and the concentration of oxygen in the solution is calculated. According to the device, the concentration of dissolved oxygen is detected ina flowing state of a solution to be detected, so that the operation of continuously stirring in a traditional device is avoided; after detection is finished, automatic cleaning is conducted, the electrolyte is automatically replaced at regular intervals, the detection precision is improved, and wide application prospects are achieved.

Description

technical field [0001] The invention relates to the measurement of dissolved oxygen in a solution, in particular to a dissolved oxygen detection device based on a microfluidic chip. Background technique [0002] Dissolved oxygen refers to the molecular state of oxygen dissolved in water. It is an indispensable condition for the survival of aquatic organisms and an important indicator for detecting biological activity and the degree of organic pollution of water bodies. At present, there are four commonly used dissolved oxygen detection methods, which are iodometric method, amperometric method, conductometric method, and fluorescence quenching method. Typical sensors made of clark dissolved oxygen electrodes. However, because its oxygen-permeable membrane and electrodes are easy to age, when the water sample contains algae, sulfide, carbonate, oil and other substances, the oxygen-permeable membrane will be blocked or damaged, and it needs to be cleaned and protected. The ox...

Claims

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Application Information

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IPC IPC(8): G01N27/416B01L3/00
CPCB01L3/50273G01N27/4166
Inventor 刘雨生徐佩锋孙健周李贤
Owner JIANGSU POLYTECHNIC COLLEGE OF AGRI & FORESTRY
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