Carbon nanometer tube ion exchange resin preparation method

An ion exchange resin and carbon nanotube technology, which is applied in the field of ion exchange resin preparation, can solve problems such as serious swelling, and achieve the effects of large pore volume, low degree of expansion and excellent performance.

Inactive Publication Date: 2004-11-17
EAST CHINA NORMAL UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] As for resins with pore structure, porogens are generally used, such as Rohm and Haas Amberlyst series, the pore diameter is about 30nm, and the pore diameter is relatively large. The above series of resins also have the problem of severe swelling.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0030] The first step is to operate according to the first step of the above-mentioned technical scheme;

[0031] Second step With 84 grams of styrene, 14 grams of styrene-diethylene, 1 gram of phthaloyl peroxide, and 1 gram of carbon nanotubes, according to the second step operation of the above-mentioned technical scheme, 98 grams of carbon nanotube composite resins are obtained;

[0032] The third, fourth, and fifth steps are respectively operated according to the third, fourth, and fifth steps of the above-mentioned technical scheme;

[0033] The sixth step selects and prepares carbon nanotube acidic cation exchange resin;

[0034] The 7th step is operated by the 7th step scheme of above-mentioned technical scheme, gets carbon nanotube acidic cation exchange resin 250 grams;

[0035] The ninth step is the end of the preparation.

Embodiment 2

[0037] The first step is to operate according to the first step of the above-mentioned technical scheme;

[0038] Second step With 60 grams of styrene, 35 grams of styrene-diethylene, 2 grams of phthaloyl peroxide, and 3 grams of carbon nanotubes, operate in the second step of the above-mentioned technical scheme to obtain 98 grams of carbon nanotube composite resins;

[0039] The third, fourth, and fifth steps are respectively operated according to the third, fourth, and fifth steps of the above-mentioned technical scheme;

[0040] The sixth step selects and prepares carbon nanotube basic anion exchange resin;

[0041] The 8th step is operated by the 8th step scheme of above-mentioned technical scheme, obtains 240 grams of carbon nanotube basic anion exchange resins;

[0042] The ninth step is the end of the preparation.

Embodiment 3

[0044] The first step is to operate according to the first step of the above-mentioned technical scheme;

[0045] Second step 75 grams of styrene, 15 grams of styrene-diethylene, 3 grams of phthaloyl peroxide, and 7 grams of carbon nanotubes are operated in the second step of the above-mentioned technical scheme to obtain 98 grams of carbon nanotube composite resins;

[0046] The third, fourth, and fifth steps are respectively operated according to the third, fourth, and fifth steps of the above-mentioned technical scheme;

[0047] The sixth step selects and prepares carbon nanotube acidic cation exchange resin;

[0048] The 7th step is operated by the 7th step scheme of above-mentioned technical scheme, gets carbon nanotube acidic cation exchange resin 250 grams;

[0049] The ninth step is the end of the preparation.

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PUM

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Abstract

A carbon nanometer tube ion exchange resin preparation method by utilizing the thermal stability and specific aperture structure of the carbon nano-tube for preparing microporous type thermostable carbon nano-tube ion exchange resin comprises the steps of, stirring and mixing the carbon nano-tube with polymer and initiating agent at specific temperature for a period of time before carrying out the polymerization reaction, employing a delay original position reset polymerization to increase the polymer molecular weight, and employing the method of improving degree of crosslinking to increase the mechanical strength of the ion exchange resin.

Description

technical field [0001] The invention relates to a method for preparing a carbon nanotube ion exchange resin, belonging to the technical field of ion exchange resin preparation. Background technique [0002] The preparation of ion-exchange resins with good thermal stability, reasonable skeleton and pore structure, and low expansion rate has always been the goal that people strive for. Due to material and structure reasons, ordinary acidic cation exchange resins cannot be used for a long time in reactions above 100°C, and ordinary basic anion exchange resins cannot be used in reactions above 50°C for a long time, and the swelling is severe to a large extent The scope of use of the resin is limited. [0003] At present, there are generally two methods for the preparation of high temperature resistant resins in the world: the first method is to improve the thermal stability of the material itself, such as NafionR, NafionXR, Nafion511, NafionXR-500 produced ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08J5/20C08K3/04
Inventor 徐学诚成荣明赵祖义陈友
Owner EAST CHINA NORMAL UNIV
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