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Method for detecting anti-mildew property of antibacterial plastics with ATP (adenosine triphosphate) bioluminescence lgCA-lgIA standard curve method

A technology of antibacterial plastics and detection methods, applied in the field of antifungal performance testing of antibacterial plastics, ATP bioluminescence lgCA-lgIA standard curve method, can solve the problems of inaccurate counting of mycelium, large influence, inability to quantitatively test, etc. The effect of improving scientificity and generality, reducing the influence of human factors, and breaking through the limitations of qualitative analysis

Inactive Publication Date: 2019-09-27
李文杰
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Problems solved by technology

In general, there are the following common problems in the technical content and practical application of the anti-mold performance detection method: First, because the mycelium formed during the growth of mold spores cannot be accurately counted, only qualitative judgments can be made, and quantitative tests cannot be performed; Due to the long growth cycle of mold, the cultivation time is at least 2 to 4 weeks, resulting in a long test cycle, high time and economic costs; third, the experimental process is cumbersome and technically difficult; related operations are greatly affected by human factors, resulting in test errors large, incomparable
Driven by the demand, foreign antibacterial material performance testing technology research field aimed at the current development trend of quantification, rapidity and simplification, has drawn on the principle of ATP fluorescence analysis to formulate ISO20743:2007-2013 "Textiles-Determination of antibacterial activity of textile products (textiles- Determination of Antibacterial Performance of Antibacterial Finished Textiles)" and ISO13629-1:2012 "Textiles-Determination of antifungalactivity of textile products. Fluorometric method to characterize the anti-microbial / mold performance, but it is only applicable to textile or microporous materials with water absorption and control sample / mycotic growth value > 0, and it is not suitable for key technologies such as the recovery method of viable bacteria and the effective conditions of the test. Applicable to plastics, glass and other materials with non-absorbent hard surface and mold growth value of the control sample < 0, and does not provide measurement uncertainty evaluation
In addition, the relevant antibacterial performance characterization parameters of this standard method are relatively single, only involving the antibacterial activity value A, while the antibacterial rate R commonly used in my country

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  • Method for detecting anti-mildew property of antibacterial plastics with ATP (adenosine triphosphate) bioluminescence lgCA-lgIA standard curve method
  • Method for detecting anti-mildew property of antibacterial plastics with ATP (adenosine triphosphate) bioluminescence lgCA-lgIA standard curve method
  • Method for detecting anti-mildew property of antibacterial plastics with ATP (adenosine triphosphate) bioluminescence lgCA-lgIA standard curve method

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Embodiment Construction

[0142] The present invention will be described in detail below in conjunction with preferred embodiments, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, so as to define the protection scope of the present invention more clearly.

[0143] In this embodiment, the antifungal performance detection of an antibacterial plastic sample processed by adding a nano-silver antibacterial agent is taken as an example for illustration.

[0144] The specific detection method is carried out according to the following steps:

[0145] (1) Sample preparation and pretreatment

[0146] 1.1 Control sample: Except without antibacterial treatment, the composition, process, physical and chemical and mechanical properties of the control sample are exactly the same as those of the antibacterial plastic sample to be tested; the size is (50±2)mm×(50±2)mm, the thickness is different More than 10mm; 6 groups of samples are used for eac...

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Abstract

The invention relates to a method for detecting anti-mildew property of antibacterial plastics. The method comprises detection steps as follows: sample preparation and pretreatment; selection of equipment type and preparation of reagents and culture media; strain preservation and activation and preparation of a spore solution; establishment of an OD value-viable content logarithm value lgCB standard curve; establishment of an ATP (adenosine triphosphate) concentration logarithm value lgCA-relative fluorescence intensity logarithm value lgIA standard curve and calibration of viable bacteria CA of an inoculant liquid; inoculation, culture and eluting recovery of samples; IA determination of a recovery liquid and calculation of viable bacteria ATP concentration CA and TA of the recovery liquid; calculation of antibacterial ratio R or antibacterial activity value A; result evaluation. The method is characterized in that an ATP fluorophotometer is applied to accurate and quantitative test of the anti-mildew property of R or A characterized antibacterial plastics. According to the method, a control sample and an antibacterial sample after 0 h contact and 24 h culture are eluted and recovered, and IA of the recovery liquid is measured and R or A is characterized by lgIA and calculated; result evaluation basis is provided. According to the developed ATP bioluminescence lgCA-lgIA standard curve method for detecting the anti-mildew property of the plastics, product quality improvement is supported with a scientific and advanced detection technology.

Description

technical field [0001] The invention relates to a method for testing the anti-mold performance of antibacterial plastics, in particular to an ATP bioluminescent IgC that uses an ATP fluorescence photometer to accurately and quantitatively detect the anti-mold performance of antibacterial plastics characterized by antibacterial rate R or antibacterial activity value A A -lgI A The standard curve method belongs to the technical field of plastic antibacterial function detection. Background technique [0002] Plastic products are widely used in the fields of industry and people's livelihood. Because the additives used in the processing process provide the necessary nutrient source for the growth of bacteria, molds and other microorganisms, the sterility of plastics and their surfaces is very important for reducing the spread of diseases and improving people's health. level is very important. Since the 1990s, developed countries represented by Japan and the United States have b...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12Q1/18C12Q1/06C12N1/14C12R1/685C12R1/645C12R1/82
CPCC12N1/14C12Q1/06C12Q1/18C12Q2304/60G01N2333/37G01N2333/38G01N2333/385
Inventor 李文杰郭凤柳李海云艾连峰刘晓慧
Owner 李文杰
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