Form high-tech products with independent intellectual property rights, replace or even surpass imported products in terms of quality and function, and promote the domestic development of high-end conductive agents. Finally realize the transformation of scientific and technological achievements into new products, carry out comprehensive promotion and application, realize application value, promote the perfect combination and good cycle of research and development, production and market, reduce the manufacturing cost of lithium ion battery, improve the quality of lithium ion batteries so as to achieve a double harvest of enterprise benefits and social benefits.
Since its establishment, KELAIWEI nano carbon materials have been "standing" with the world relying on advanced technology. Science and technology opens the future. Clevere company is professional and focuses on the research and manufacture of high-end carbon nanomaterials. The expert team led by Professor Sun Xiaogang of Nanchang University is committed to becoming the leader of high-end carbon nanomaterials industry. Our products have applied for hundreds of patents and have been recognized by enterprises in more than 60 countries around the world. KELAIWEI will continue to invest in technology to promote product research and development and provide you with high-end carbon nanomaterials.
Since its establishment in 2018, Henan KELAIWEI Nano Carbon Material Co., Ltd has paid great attention to the development of high-end nano material technology and the formation of talent team. In order to realize the scientific research goal of clevere company, our company has maintained deep cooperation with many domestic universities and scientific research institutions. For example, the team of Professor Sun Xiaogang from Nanchang University, Donghua University, Zhengzhou University of light industry and other universities continuously input product technology and talent strength for our company.
To pursue the steps of time and record the figure of time, in order to enrich the spiritual life of employees and build a bustling corporate culture atmosphere, the annual time photography contest of KELAIWEI company was successfully held this photography contest was actively contributed by the staff. The works of hometown, nature, landscape, animals, time and so on with connotation and depth were amazing. The Passion of the staff, it is the vitality of the enterprise. KELAIWEI company will create product value for you with its passionate service, and create a view of carbon crystalline ENE integrated wallboard.
KELAIWEI company learned that South Korea LG Chemical invested 0.374 billion yuan to expand the production of its carbon nanotubes (CNT) factory in order to expand the production of carbon nanotubes (CNT) the annual output has increased to 1200 tons as a new generation of materials-carbon nanotubes are widely used in the field of application, such as aircraft manufacturing industry, automobile parts manufacturing, battery and semiconductor manufacturing industry, etc, chuangjing carbonitene integrated wallboard.
How is carbon nanotubes made by chemical vapor deposition? Carbon nanotube materials are widely used and have strong properties, but their production is very low and the manufacturing process is complex. Therefore, scientists have continuously improved the manufacturing methods. Chemical vapor deposition method is used to produce carbon nanotubes, and its production efficiency is still relatively high. By chemical vapor deposition, carbon-containing gases are cracked by catalysts to obtain carbon nanotubes.
The specific surface area of whisker carbon nanotubes is generally 13~50 m2/g, and that of ordinary carbon nanotubes is above 200 m2/g. The larger the specific surface area is, the worse the dispersion performance of the product is, the agglomeration of conductive agents is more likely to occur. In lithium ion batteries, the larger the specific surface area is, the greater the gas production of lithium ion batteries will be in the long-term cycle process, smaller specific surface area is conducive to improving the cycle performance of lithium ion batteries and reducing the gas production of batteries in the later cycle process.
