Modified T-ZnOw antibiotic material and preparation method thereof

A t-znow and modified technology, applied in botany equipment and methods, chemicals for biological control, animal repellent, etc., can solve the problem of low utilization rate of antibacterial agents, insufficient response, short effective antibacterial time, etc. problem, achieve high utilization rate, improve antibacterial performance, and good antibacterial performance

Inactive Publication Date: 2010-07-14
CENT SOUTH UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The present invention proposes a T-ZnOw antibacterial agent doped and modified by rare earth elements and its preparation method in order to overcome the problems of insufficient response in the visible light field, short effective antibacterial time and low utilization rate of antibacterial agents commonly existing in current photocatalysts.

Method used

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  • Modified T-ZnOw antibiotic material and preparation method thereof
  • Modified T-ZnOw antibiotic material and preparation method thereof
  • Modified T-ZnOw antibiotic material and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] LaCl 3 , deionized water, polyacrylamide, and ammonia water are all analytical reagents

[0038] Put 1.000g of T-ZnOw into a beaker, add deionized water to 100mL, stir well, and add 0.0500g of polyacrylamide under stirring condition, continue to stir for 20min, and oscillate ultrasonically for 10min. Adjust the pH to about 9 with ammonia water to obtain a dispersion system of T-ZnOw in water medium.

[0039] Add 0.0250g LaCl to the T-ZnOw dispersion system under ultrasonic conditions 3. Stir for 40 minutes and then sonicate for 20 minutes, filter the obtained suspension, wash, dry, dry at 300°C for 1 hour, and fully grind to obtain a single rare earth element modified T-ZnOw antibacterial agent.

Embodiment 2

[0041] LaCl 3 , CeCl 3 , deionized water, and PEG20000 are all analytical reagents

[0042] Put 0.5000g T-ZnOw into a beaker, add deionized water to 100mL, stir well, and add 0.0300g PEG20000 under stirring condition to continue stirring for 30min, and ultrasonic vibration for 10min. A dispersion system of T-ZnOw in water medium is obtained.

[0043] Add 0.0500g LaCl to the T-ZnOw dispersion system under ultrasonic conditions 3 and 0.0500g CeCl 3 . Stir for 40 minutes and then sonicate for 20 minutes. The obtained suspension is filtered, washed, dried, dried at 300°C for 1 hour, and fully ground to obtain two kinds of rare earth element modified T-ZnOw antibacterial agents.

Embodiment 3

[0045] Ho 2 o 3 , EuCl 3 , CeCl 3 , acetone, and titanate are all analytical reagents

[0046] Put 2.000g of T-ZnOw into a beaker, add 100ml of titanate and acetone at a ratio of 1:2, stir thoroughly for 40min, and oscillate ultrasonically for 20min. The dispersion system of T-ZnOw in acetone medium is obtained.

[0047] Add 0.0025gHo to the T-ZnOw dispersion system under ultrasonic condition 2 o 3 , 0.0050g EuCl 3 and 0.0025g CeCl 3 . Stir for 60 minutes and then sonicate for 20 minutes, filter the obtained suspension, wash, dry, dry at 400° C. for 1.5 hours, and fully grind to obtain three kinds of rare earth element modified T-ZnOw antibacterial agents.

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Abstract

The invention provides a modified T-ZnOw antibiotic material and a preparation method thereof. T-ZnOw is a photocatalysis type antibiotic material, mainly uses a natural light source of an ultraviolet wave band, and has low utilization ratio on visible light. The rare-earth element can introduce lattice defect in T-ZnOw whisker crystal or change crystallinity, generates additional energy band in T-ZnOw whisker forbidden band, expands the spectrum response range of the T-ZnOw, improves the effective utilization of the visible light, and greatly improves the catalytic efficiency of photocatalyst; on the other side, the rare-earth element served as a dispersing agent ensures that the T-ZnOw is evenly dispersed and suspended in a dispersed medium for long time, and can remarkably improve the antibiotic performance of the finished product T-ZnOw.

Description

technical field [0001] The invention relates to a photocatalytic inorganic composite T-ZnOw antibacterial material and a preparation method thereof, belonging to the technical field of new functional materials. Background technique [0002] Economic development and environmental protection have always been difficult problems that the country has worked hard to solve. With the improvement of people's living standards and the enhancement of environmental awareness, the voice of protecting the ecological environment, saving human living space and improving environmental quality is increasing day by day. Therefore, a healthy living environment has increasingly become the pursuit goal of human beings. Environmental microorganisms that endanger human health have also attracted people's attention. The Escherichia coli O-157 infection incident in Japan in 1996 and the sudden SARS epidemic in the world in 2003 once caused panic all over the world. In the world, the death of human b...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A01N59/16A01P1/00
CPCA01N59/16A01N25/04A01N25/34
Inventor 黄小忠龙泓羽向萍杨怡杜作娟
Owner CENT SOUTH UNIV
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