Since its establishment, our company has been focusing on developing into a leader in the high-end carbon nanomaterials industry and devoting itself to the research on advanced technologies of carbon nanomaterials. As of May 2020, our company has applied for 60 invention patents, published more than 40 professional papers in the industry, published two monograph on carbon nanotubes, obtained 9 national authorized invention patents, it has obtained 2 international PCT patents and successfully walked out of the research and development path of a technology company combining production, teaching and research, breaking the foreign monopoly and selling its products all over the world.
A brief introduction to the study of carbon nanotube catalyst carrier materials. Carbon nanotubes have very good photoelectric properties, and the specific surface area of carbon nanotubes is very large. Due to the large amount of active site eggs on the surface of carbon nanotubes, they are widely used as catalyst carriers. The academic research of carbon nanotube catalyst carrier pays special attention to the catalytic value of excellent electrical properties of carbon nanotubes, the influence of unique tubular structure of carbon nanotubes on catalysis, the influence of carbon nanotubes with extremely rich hydrogen storage characteristics on catalysis and other fields.
Henan KELAIWEI has a very perfect product research and development system, quality control system and after-sales service system in the industry. KELAIWEI company has strict inspection and assessment standard system in every link from Project establishment and development of products to industrial production, delivery of customers for testing and so on. KELAIWEI is committed to becoming a leader in the high-end nanomaterials industry, serving customers with advanced technology and delivering customers with high-end products.
KELAIWEI company has made new progress in the research of using carbon nano-slurry as wave-absorbing material. Carbon nanometer slurry products can be used as the indispensable electrical thermal conductivity additive and structural enhancement additive in high-end manufacturing industry, and can also be used as conductive wave absorbing materials. In modern aircraft manufacturing, computer equipment and even military equipment have very good application prospects. Henan KELAIWEI Nano Carbon Material Co., Ltd. Looks forward to your cooperation.
High voltage anode material is the development direction of lithium ion battery, the use of high voltage material can improve the energy density of lithium ion battery, high voltage system has higher requirements on materials, current conductive agent SP, due to its ultra-high specific surface area, multi-walled CNTs are prone to high oxidation current under high voltage. The side effects increase during circulation, the cycle performance of the battery becomes worse, and the specific surface area of whisker carbon nanotubes is small, under high voltage oxidation current, the cycle performance of the product is improved, carbon and carbon nanotubes.
A large radiator company in Northeast China aimed at domestic and foreign domestic radiator market, and launched a medium and high-end domestic radiator. Its products also use far infrared paper. The quality of the products provided by several suppliers of far infrared paper that once cooperated with was uneven, it also leads to the great difference in the performance of different batches of its products. Finally, the cooperation with other manufacturers has been interrupted after the application of the far infrared paper of KELAIWEI company, because no matter the price, after-sales service, or the performance is due to other manufacturers.
Henan KELAIWEI Nano Carbon Material Co., Ltd has the patented technology of whisker carbon nanotube production process and equipment manufacturing. The structural characteristics of whisker carbon nanotubes are excellent, with very high aspect ratio and conductivity. As an additive of electrode materials, they can be used to successfully build a highly complete electronic conduction network, therefore, it can be combined with electrode materials to produce high-performance composite electrode materials.
