Characteristics of chemically synthesized highly active copper oxide catalysts

Copper oxide catalysts are key materials in today's chemical industry, used to promote a variety of important reactions. These reactions include dehydrogenation, oxidation, reduction and desulfurization, etc. Therefore, highly active copper oxide catalysts are necessary to achieve efficient and sustainable production. This article will introduce MINSTRONG's use of chemical synthesis to prepare highly active copper oxide catalysts.

The Importance of Copper Oxide Catalysts

Copper oxide is an important catalyst widely used in industry and laboratories. Its applications include chemical reactions, wastewater treatment, environmental protection and energy production. Highly active copper oxide catalysts can increase reaction rate, selectivity and efficiency, reduce waste generation, and promote sustainable development.

Different from other methods, the copper oxide synthesized by chemical method has a higher content, a large number of micropores distributed in the structure, abundant active sites on the inner and outer surfaces, high specific surface area and high activity.

Copper oxide catalysts synthesized by chemical methods have the following characteristics

1. High specific surface area: The specific surface area is as high as 180 m2/g, which has higher reactivity.

2. Controllability: It is produced using chemical liquid phase synthesis technology to meet the needs of different reactions.

3. Catalytic activity: Highly active copper oxide catalyst shows excellent catalytic performance and can accelerate a variety of reactions, such as oxidation, reduction and desulfurization.

4. Persistence: This type of catalyst usually has a long life and can maintain efficient performance over multiple uses.

MINSTRONG is a manufacturer specializing in the research and development and production of highly active copper oxide. We have a professional technical team that can provide you with technical design guidance and catalyst selection. Welcome to consult.