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Highly-mouldproof polyester modified by using tin-based perovskite quantum dot and preparation method of highly-mouldproof polyester

A technology using tin-based perovskite and lead-free tin-based perovskite, applied in textiles and papermaking, fiber processing, fiber types, etc., can solve the problems such as high mildew resistance polyester that has not been seen yet, and achieve a simple and easy preparation process. effect of operation

Active Publication Date: 2019-05-10
SHAANXI UNIV OF SCI & TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

No report on the use of perovskite quantum dots to prepare high mildew-resistant polyester

Method used

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  • Highly-mouldproof polyester modified by using tin-based perovskite quantum dot and preparation method of highly-mouldproof polyester
  • Highly-mouldproof polyester modified by using tin-based perovskite quantum dot and preparation method of highly-mouldproof polyester

Examples

Experimental program
Comparison scheme
Effect test

example 1

[0033] Step 1: First, weigh 0.05 g Cs 2 CO 3 Put it into a three-necked flask, add 4 ml 1-octadecene, and add 0.35 mL oleic acid, then place it in an oven and dry it at 80°C for 0.5 h to remove excess water, then pump nitrogen at room temperature to further remove excess Oxygen and moisture, heated to 140 ℃, until Cs 2 CO 3 Dissolve completely, cool down to 110°C to obtain the first mixed solution, and set aside;

[0034] Step 2: First, weigh 0.02g SnCl 2 Add it into a three-necked flask, then add 3.5 mL of 1-octadecene into the three-necked flask, place it in an oven and dry it at 80°C for 0.5 h, remove excess moisture, pump nitrogen at room temperature to remove excess air and moisture, and then raise the temperature to 110°C ℃, after 0.5h the SnCl 2 Completely dissolve to obtain the second mixed solution;

[0035] Step 3: After raising the temperature of the second mixed solution to 140°C, inject 0.25 mL of oleic acid and 0.35 mL of oleylamine into the system, and the...

example 2

[0040] Step 1: Weigh 0.06 g Cs 2 CO 3 Add it to a three-necked flask, add 5 ml 1-octadecene, and add 0.35 mL oleic acid, place it in an oven and dry it at 90°C for 0.5 h to remove excess water, then pump nitrogen at room temperature to further remove excess oxygen and Moisture, heated to 150 °C until Cs 2 CO 3 Dissolve completely, cool down to 120°C to obtain the first mixed solution, and set aside;

[0041] Step 2: Weigh 0.03g SnCl 2 Put it into a three-necked flask, then add 4 mL of 1-octadecene into the three-necked flask, place it in an oven and dry it at 90°C for 0.5 h, remove excess water, pump nitrogen at room temperature to remove excess air and water, and then raise the temperature to 120°C ℃, after 1 h the SnCl 2 Completely dissolve to obtain the second mixed solution;

[0042] Step 3: Heating the second mixed solution to 145°C, first injecting 0.3 mL of oleic acid and 0.4 mL of oleylamine into the system, and then injecting 0.35 mL of the first mixed solution,...

example 3

[0047] Step 1: Weigh 0.07 g Cs 2 CO 3 Add it to a three-necked flask, add 6 ml 1-octadecene, and add 0.4 mL oleic acid, place it in an oven and dry it at 90°C for 1 h to remove excess water, then pump nitrogen at room temperature to further remove excess oxygen and Moisture, heated to 150 °C until Cs 2 CO 3 Dissolve completely, cool down to 120°C to obtain the first mixed solution, and set aside;

[0048] Step 2: Weigh 0.04g SnCl 2 Put it into a three-necked flask, then add 4.5 mL of 1-octadecene into the three-necked flask, place it in an oven and dry it at 100°C for 1 hour, remove excess water, pump nitrogen at room temperature to remove excess air and water, and then raise the temperature to 120°C ℃, after 1 h the SnCl 2 Completely dissolve to obtain the second mixed solution;

[0049] Step 3: After raising the temperature of the second mixed solution to 150°C, inject 0.35 mL of oleic acid and 0.45 mL of oleylamine into the system, and then inject 0.4 mL of the first ...

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Abstract

The invention relates to highly-mouldproof polyester modified by using a tin-based perovskite quantum dot and a preparation method of the highly-mouldproof polyester. The technical scheme is that a lead-free tin-based perovskite quantum dot with high photocatalystic performance is prepared by using a heat injection method, and a polyester fabric subjected to alkali decrement treatment is modifiedby using the lead-free tin-based perovskite quantum dot to achieve high mouldproof performance, so that the highly-mouldproof polyester modified by using the tin-based perovskite quantum dot is prepared. The highly-mouldproof polyester modified by using the tin-based perovskite quantum dot, prepared by using the preparation method, is excellent in mouldproof performance, the preparation method canbe performed after the alkali decrement operation of a traditional process of polyester, and the preparation method is simple and efficient.

Description

technical field [0001] The invention belongs to the field of preparation of anti-mildew polyester, in particular to a modified high anti-mold polyester using tin-based perovskite quantum dots and a preparation method thereof. Background technique [0002] With the continuous development of society and the continuous improvement of people's living standards, people's requirements for healthy living are also increasing. Polyester textiles, as a kind of material that people have more contact with in daily life, have received more and more attention for their hygienic performance. The widespread existence of bacteria and other microorganisms makes polyester textiles very easy to become a breeding ground for bacteria in the process of taking, storing, and transporting, posing a threat to people's health. Therefore, endowing polyester fabrics with high mildew resistance has great application prospects. The antifungal agents currently used for textile antifungal treatment mainly ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): D06M11/00D06M11/76D06M11/20D06M11/38D06M13/188D06M101/32
Inventor 吕斌郭旭高党鸽马建中李亚娟杨娜寇梦楠
Owner SHAANXI UNIV OF SCI & TECH