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Description
Staudenmaier Method of graphite oxide powderProduct Name Name: Staudenmaier Method of graphite oxide powder Product Overview Staudenmaier method is a traditional method used for oxidizing graphite powder. The main steps include: first, mixing natural graphite powder with fuming nitric acid. Then, under stirring conditions, gradually add high concentrations of strong oxidants such as potassium chlorate or potassium permanganate. The reaction is usually carried out at a lower temperature (usually
Product Name
Name: Staudenmaier Method of graphite oxide powder
Product Overview
Staudenmaier method is a traditional method used for oxidizing graphite powder. The main steps include: first, mixing natural graphite powder with fuming nitric acid. Then, under stirring conditions, gradually add high concentrations of strong oxidants such as potassium chlorate or potassium permanganate. The reaction is usually carried out at a lower temperature (usually around 0 ¡ãC to control the intensity of the reaction. The advantage of this method is that it can effectively oxidize graphite powder and introduce a large number of oxygen-containing functional groups, such as hydroxyl, carboxyl, and epoxy groups. However, the Staudenmaier method also has some drawbacks. For example, the strong oxidizing agent used in the reaction process has strong oxidizing and corrosive properties, and there is a certain degree of danger in the operation process. The Staudenmaier method, as a classic preparation method, still plays an important role in many fields.
Technical Parameter
Method:Staudenmaier method
Appearance:Grey Green Powder
Diameter:5-30 μm
Specific surface area:~6m2/g
Purity:~99at% (XPS:/span>
Oxygen content:~27at% (XPS:/span>
Product Features
High degree of oxidation: The oxidized graphite powder obtained by Staudenmaier method has a high degree of oxidation, but the layer structure may be damaged to a certain extent.
Electrochemical performance: Graphite oxide powder has potential application value in the field of electrochemical energy storage due to its unique structure and properties.
Multiple active sites: Oxidized graphite powder has a large number of active sites, which can load a large amount of catalyst active components.
Application Fields
1. Precursors for graphene preparation: Oxidized graphite powder is one of the important precursors for graphene preparation. Through further processing methods such as thermal expansion and chemical reduction, oxidized graphite powder can be converted into graphene.
2. Composite materials: widely used in the fields of polymer materials, ceramic materials, metal materials, etc., to prepare composite materials with excellent properties.
3. Energy storage materials: can be used as electrode materials for supercapacitors, improving their energy density and power density through their high specific surface area and good conductivity.
4. Catalyst carrier: In the field of catalysis, oxidized graphite powder can be used as a carrier for catalysts to improve their dispersion and catalytic efficiency.
5. Adsorption material: The surface of oxidized graphite powder contains a large number of oxygen-containing functional groups, which can interact with pollutants such as heavy metal ions and organic matter in water, thereby achieving adsorption and removal of pollutants.
6. Biomedical field.
Related Information
Please e-mail for the detailed characterization data.
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