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Nanometer flexible blood glucose microsensor and preparation method thereof

A micro-sensor, blood sugar technology, applied in sensors, blood characterization devices, medical science and other directions, can solve the problems of large-scale production and manufacturing of unfavorable products, difficult to achieve real-time in-situ monitoring, and high test environment requirements, to avoid human discomfort and material. Damage, high efficiency, low cost, small volume and high integration, the effect of eliminating allergic and uncomfortable reactions

Active Publication Date: 2017-08-11
BEIJING UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In terms of flexible sensor array design, Wei Gao et al. mentioned in the paper "Fully integrated wearable sensor arrays for multiplexed insituperspiration analysis" that flexible integrated sensor array design combines glucose, sodium and potassium ions, and pH value sensing microdevices in the same On flexible substrates, the design process is complicated, which is not conducive to the realization of mass production and manufacturing of products
Comprehensive consideration of the existing glucose sensors generally has a series of problems: 1. Low utility, complex structure design, large size, and difficult to realize portable and wearable functions; 2. The process is cumbersome and the device cost is too high; 3. The detection accuracy is low and difficult Realize real-time in-situ monitoring; 4. High requirements for the test environment; 5. The blood sugar response range is narrow, which is difficult to meet the monitoring of a wide range of blood sugar concentration in diabetic patients

Method used

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  • Nanometer flexible blood glucose microsensor and preparation method thereof
  • Nanometer flexible blood glucose microsensor and preparation method thereof
  • Nanometer flexible blood glucose microsensor and preparation method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0046] (1) The mixture of analytically pure concentrated nitric acid (68% by mass fraction) and analytically pure concentrated sulfuric acid (98% by mass) with a volume ratio of 3:1 is used as the acidifying liquid, and carboxyl groups are introduced into single-walled carbon nanotubes, Stir at 110°C for 90 minutes, centrifuge in a high-speed centrifuge at 9,500 rad / min, filter off the supernatant, adjust the pH of the carbon tubes to neutral, and evaporate the water to dryness at 50°C to obtain a single-walled carboxyl-functionalized carbon tube film. Zinc oxide was used as the target material, the sputtering pressure was 1pa, the target base distance was 7cm, the sputtering power was 50W, and the flow rate of argon gas was 40sccm. The carbon nanotube zinc oxide composite material was prepared at room temperature with a thickness of 200nm. Spray 10 μL (concentration 35mg / mL) of glucose oxidase on the material as a sensing material, and the sensing material used is the same siz...

Embodiment 2

[0052] (1) The mixture of analytically pure concentrated nitric acid (68% by mass fraction) and analytically pure concentrated sulfuric acid (98% by mass) with a volume ratio of 3:1 was used as the acidified liquid, stirred at 110°C for 60min, and centrifuged at 9500rad in a high-speed centrifuge Centrifuge at medium / min, filter off the supernatant, adjust the pH of the carbon tubes to neutral, spread the water at 50°C and evaporate to dryness to obtain a single-walled carboxyl-functionalized carbon tube film. The target material is zinc oxide, the sputtering pressure is 1pa, the base distance of the target is 5cm, the sputtering power is 80W, the flow rate of argon gas is 30sccm, the temperature of the substrate is room temperature, and the sputtering is 80min to obtain a carbon nanotube zinc oxide composite material with a thickness of 100nm, spray 20 μ L (concentration 25mg / mL) glucose oxidase on this material, use as sensing material, make sensing material and microchannel ...

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Abstract

The invention discloses a nanometer flexible blood glucose microsensor and a preparation method of the nanometer flexible blood glucose microsensor. The nanometer flexible blood glucose microsensor comprises a flexible substrate, an epoxy resin layer, an electrode structure and a glucose oxidase membrane layer, wherein the flexible substrate has the good temperature adaptability (-10 to 300 DEG C), the electrode structure has the excellent conductivity and can resist acid and alkaline corrosion, the glucose oxidase loaded microchannel (the length of the channel is smaller than 10mm, and the width of the channel is 10-500 [mu] m) is formed by the nanometer material texture, is good in flexibility and high in sensitivity, forms the linear dependence within the glucose concentration (0.5-30 mmol / L) range, and has the good invertibility and repeatability, and a hydrophilic wear-resistant film has the good ion penetrating property, strong water absorption property and the effect of protecting the sensitive layer. The nanometer flexible blood glucose microsensor is non-toxic and harmless, has the comfort in contacting the human skin and causes no allergy, the overall structure does not exceed 1cm<2>, and the in-situ real measurement and analysis for the blood glucose level (0.5-30 mmol / L) of the human blood can be realized through current response.

Description

technical field [0001] The invention belongs to the field of preparation of electrochemical sensors, and in particular relates to a nano-flexible blood sugar sensor and a preparation method thereof, which are used to realize in-situ real-time detection and analysis of human blood sugar, and ensure that the sensor is suitable for long-term wear and stable work of the human body, and can Realize non-invasive or minimally invasive blood sugar monitoring, and meet the wide-range blood sugar monitoring of diabetes. Background technique [0002] Blood sugar is closely related to human health. Long-term high blood sugar can cause various complications (such as uremia, limb necrosis, blindness, etc.), while low blood sugar can cause fainting, palpitation and weakness. Therefore, blood sugar testing is of great significance to human health. However, traditional blood glucose testing equipment is bulky and time-consuming, and cannot achieve real-time and accurate detection, which limi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/1468A61B5/145
CPCA61B5/14532A61B5/1468
Inventor 王如志张曼晨沈震严辉张铭王波汪浩宋雪梅
Owner BEIJING UNIV OF TECH
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