A three-layer vesicular polyaniline/graphene composite material and a preparing method thereof

A composite material, polyaniline technology, applied in the field of three-layer vesicular polyaniline/graphene composite material and its preparation, can solve problems such as toxic environmental hazards

Active Publication Date: 2016-11-09
山东济清科技服务有限公司
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, graphene in this patent is prepared by reducing graphene oxide with hydrazine

Method used

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  • A three-layer vesicular polyaniline/graphene composite material and a preparing method thereof
  • A three-layer vesicular polyaniline/graphene composite material and a preparing method thereof
  • A three-layer vesicular polyaniline/graphene composite material and a preparing method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0075] (1) Preparation of vesicular SiO with 6-7 layers 2 Measure 35mL of distilled water into a 100mL beaker, then add 0.1420gCTAB to the beaker, stir until clear, then add 0.1126g DDAB, stir at 30°C for 24h to obtain a mixed dispersion; transfer the mixed dispersion to a polytetrafluoroethylene liner In the high-pressure reactor, tighten the high-pressure reactor and put it in an oven, react at 100°C for 24 hours, cool the high-pressure reactor to room temperature after hydrothermal treatment, and obtain a precipitate; the obtained precipitate is separated by suction filtration and dried , calcined at 550 °C for 6 h after grinding to obtain 6-7 layers of vesicular SiO 2 .

[0076] (2) Preparation of vesicular SiO with 6-7 layers 2 / polyaniline composites such as figure 1 a Add 30mL 1mol L -1 HCl solution, 0.0100g vesicular SiO with 6-7 layers 2 , 0.0500g SDS were added in the beaker successively, ultrasonic 30min to dissolve completely, obtain mixed dispersion liquid;...

Embodiment 2

[0080] (1) Preparation of 3-4 layers of vesicular SiO 2 Measure 35mL of distilled water into a 100mL beaker, then add 0.1420g CTAB to the beaker, stir until clear, then add 0.1500g DDAB, stir at 30°C for 24h to obtain a mixed dispersion; transfer the mixed dispersion to a polytetrafluoroethylene liner In the high-pressure reactor, tighten the high-pressure reactor and put it in the oven, react at 100°C for 24 hours, cool the high-pressure reactor to room temperature after hydrothermal treatment, and obtain a precipitate; after the obtained precipitate is separated by suction filtration, After drying, calcining at 550°C for 6h after grinding to obtain 3-4 layers of vesicular SiO 2 .

[0081] (2) Preparation of 3-4 layers of vesicular SiO 2 / polyaniline composite material with 30mL 1mol L -1 HCl solution, 0.0100g 3-4 layers of vesicular SiO 2, 0.0500g SDS were added to the beaker in turn, ultrasonic 30min until completely dissolved to obtain a mixed dispersion; the mixed d...

Embodiment 3

[0085] (1) Preparation of vesicular SiO with 2-3 layers 2 Measure 35mL of distilled water into a 100mL beaker, then add 0.1420g CTAB to the beaker, stir until clear, then add 0.2000g DDAB, stir at 30°C for 24h to obtain a mixed dispersion; transfer the mixed dispersion to a polytetrafluoroethylene liner In a high-pressure reactor, tighten the high-pressure reactor and put it in an oven, react at 100°C for 24 hours, cool the high-pressure reactor to room temperature after hydrothermal treatment, and obtain a precipitate; after the obtained precipitate is separated by suction filtration, After drying, calcining at 550°C for 6h after grinding to obtain 2-3 layers of vesicular SiO 2 .

[0086] (2) Preparation of vesicular SiO with 2-3 layers 2 / polyaniline composite material with 30mL 1mol L -1 HCl solution, 0.0100g vesicular SiO with 2-3 layers 2 , 0.0500g SDS were added to the beaker in turn, ultrasonic 30min until completely dissolved to obtain a mixed dispersion; the mix...

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Abstract

A three-layer vesicular polyaniline/graphene composite material and a preparing method thereof are disclosed. The composite material is prepared by firstly preparing layer-number-adjustable SiO2, preparing a layer-number-adjustable SiO2/polyaniline composite material by adopting the layer-number-adjustable SiO2 as a hard template and adopting aniline as a raw material through an in-situ polymerization process, etching SiO2 to obtain three-layer vesicular polyaniline, preparing a three-layer vesicular polyaniline/graphene oxide composite material through a graphene oxide self-assembling process, and preparing the three-layer vesicular polyaniline/graphene composite material through a high-temperature hydrothermal reduction process. The vesicular polyaniline/graphene composite material having same layer numbers can be obtained by regulating the layer-number-adjustable SiO2. No oxidant or reductant is needed. The method is green. During preparation of the three-layer vesicular polyaniline/graphene composite material, the method is simple, safe in process, low in energy consumption and high in operability.

Description

technical field [0001] The invention relates to a three-layer vesicular polyaniline / graphene composite material and a preparation method thereof, and belongs to the intersecting field of organic / inorganic nanometer composites and functional polymer materials. Background technique [0002] Supercapacitor is a new type of green energy storage element, which has been widely concerned because of its large specific surface area, good conductivity, and multi-layer structure. Conductive polymers and carbon materials are the main pillar materials to realize the charge storage and release of supercapacitors. Among them, polyaniline has become the fastest researched conductive material because of its good thermal stability, chemical stability and electrochemical reversibility. One of the polymer materials; graphene is a two-dimensional planar structure with hexagonal structural units formed by the close packing of carbon atoms. It has the advantages of large specific surface area, hig...

Claims

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Application Information

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IPC IPC(8): C08L79/02C08K3/04C08G73/02C08J9/26
CPCC08G73/0266C08J9/26C08J2379/02C08K3/04C08L79/02
Inventor 周国伟王淑敏高婷婷李世超刘亚萍
Owner 山东济清科技服务有限公司
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