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Strong-alkaline ternary compound nano-inorganic oxide-graphene-ion exchange resin material

A technology of ion exchange resins and nano-oxides, applied in organic compound/hydride/coordination complex catalysts, chemical/physical processes, chemical instruments and methods, etc., can solve the problem of low activity and basic active group content Low-level problems, to achieve the effect of strong activity, high content of basic functional groups, and good technical effects

Active Publication Date: 2019-04-19
CHINA PETROLEUM & CHEM CORP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] One of the problems to be solved by the present invention is that the prior art has a low content of basic active groups in the strong basic ion exchange resin catalyst, and correspondingly the problem that the activity is not high in the catalyst application process, and a new strong basic ion exchange resin is provided. Ternary composite nano-inorganic oxide-graphene-ion exchange resin material, the resin has the characteristics of high content of basic functional groups and strong activity during the reaction process

Method used

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  • Strong-alkaline ternary compound nano-inorganic oxide-graphene-ion exchange resin material
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  • Strong-alkaline ternary compound nano-inorganic oxide-graphene-ion exchange resin material

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Experimental program
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Effect test

Embodiment 1

[0047] Pour 50 milliliters of deionized aqueous solution (molar concentration 0.1 mol / liter) that has dissolved 2.001 grams of chromium nitrate nonahydrate into 2.5 grams of multilayer graphene, stir and pour into a hydrothermal kettle, and the hydrothermal kettle is placed after ultrasonic vibration for 1 hour In a hydrothermal furnace, keep at 160°C for 24 hours, cool to room temperature, wash with deionized water, pour into a 250ml three-neck flask, add 80.6g of p-chloromethylstyrene, 3.5g of divinylbenzene and 0.1 gram of benzoyl peroxide initiator, stirred at 60°C for 2 hours for prepolymerization. 150 mL of deionized water in which 1.5 g of polyvinyl alcohol had been dissolved was added. Adjust the stirring speed, and at the same time gradually raise the temperature to 80°C, and react for 5 hours; then raise the temperature to 90°C, react for 5 hours, and finally raise the temperature to 98°C, and react for 6 hours. After the reaction, pour out the upper liquid, wash it...

Embodiment 2

[0051] Take 1.487 grams of zinc nitrate hexahydrate and prepare 50 milliliters of deionized aqueous solution (molar concentration 0.1 mol / liter), impregnate in 2.5 grams of multilayer graphene powder, stir and pour into a hydrothermal kettle, ultrasonically vibrate for 1 hour, and place in a hydrothermal furnace Keep at 160°C for 24 hours, cool to room temperature, and wash with deionized water to obtain a nano-zinc oxide-graphene binary composite sample. In a 250 ml three-neck flask, add 80.6 g of p-chloromethylstyrene, 3.5 g of divinylbenzene and 0.1 g of benzoyl peroxide initiator, and stir at 60° C. for 2 hours for prepolymerization. 150 mL of deionized water in which 1.5 g of polyvinyl alcohol had been dissolved was added. Adjust the stirring speed, and at the same time gradually raise the temperature to 80°C, and react for 5 hours; then raise the temperature to 90°C, react for 5 hours, and finally raise the temperature to 98°C, and react for 6 hours. After the reaction,...

Embodiment 3

[0055] Pour the deionized aqueous solution (molar concentration 0.1 mol / liter) that has dissolved 6.179 grams of ammonium molybdate tetrahydrate into 2.5 grams of multilayer graphene, stir and pour into the hydrothermal kettle, and the hydrothermal kettle is placed in after 1 hour of ultrasonic vibration In a hydrothermal furnace, keep at 160°C for 24 hours, cool to room temperature, wash with deionized water, pour into a 250ml three-necked flask, add 80.6g of p-chloromethylstyrene, 3.5g of divinylbenzene and 0.1g Benzoyl peroxide initiator, stirred at 60°C for 2 hours for prepolymerization. 150 mL of deionized water in which 1.5 g of polyvinyl alcohol had been dissolved was added. Adjust the stirring speed, and at the same time gradually raise the temperature to 80°C, and react for 5 hours; then raise the temperature to 90°C, react for 5 hours, and finally raise the temperature to 98°C, and react for 6 hours. After the reaction, pour out the upper liquid, wash it with hot wa...

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Abstract

The invention relates to a strong-alkaline ternary compound nano-inorganic oxide-graphene-ion exchange resin material and a preparation method thereof, and mainly solves the problems of low alkaline active group content of a strong alkaline ion exchange resin catalyst in the prior art and not high activity of the catalyst in the application process. The resin material comprises the following components in percentage by weight: (a) 70-85 parts of a polymerization monomer; (b) 3-15 parts of a comonomer; (c) 0.1-10 parts of graphene; (d) 0.1-1 parts of a nano-inorganic oxide component; and (e) 0.1-10 parts of an initiator; the problems are well solved by the strong-alkaline ternary compound nano-inorganic oxide-graphene-ion exchange resin material, and the strong-alkaline ternary compound nano-inorganic oxide-graphene-ion exchange resin material can be applied to industrial production of a strong-alkaline compound ion exchange resin material catalyst.

Description

technical field [0001] The invention relates to a strongly basic ternary composite nano inorganic oxide-graphene-ion exchange resin material and a preparation method thereof. Background technique [0002] Graphene is a new type of nano-carbon material. In view of the outstanding properties of graphene such as high strength, high conductivity, high strength, and flexibility, graphene provides a broad field for novel and high-performance polymer-based composite materials. development space. The use of graphene and polymer matrix to prepare composite materials can significantly improve the physical and mechanical properties and electrical properties of the material, and has broad application prospects. [0003] Nano-oxides have excellent performance due to the unique properties of nano-materials. Existing researchers are further studying the use of nano-oxides for doping, coating, and modification to prepare composite materials with different shapes, which has become a new Re...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C08F212/14C08F212/36C08F2/44B01J31/08
CPCB01J31/08C08F2/44C08F212/14C08F212/36
Inventor 李亚男何文军
Owner CHINA PETROLEUM & CHEM CORP