Nano carbon crystal wallboard, Dr. Li Yingyi, associate professor, presiding over and backbone participating in national science and technology support plan, National Natural Science Foundation, Provincial Natural Science Foundation, provincial education department fund, won the third prize of Jiangxi natural science in 2011 (the third prize). Research Fields: synthesis and application of carbon nanotubes, nano new energy materials, rare earth functional materials, LED optical conversion materials, lithium ion batteries, nano-reinforced composite materials, etc. Currently, he is the project team leader in the R & D team of KELAIWEI, have rich development experience.
The carbon nanotube materials independently developed by KELAIWEI company have obtained many national authorized patents and completely reached the international advanced level. The carbon nanotube materials with high performance and strong stability developed by KELAIWEI company broke the monopoly of relevant foreign technologies and actively promoted the development of high-end carbon materials in the motherland. The management layer of Henan KELAIWEI Nano Carbon Material Co., Ltd has decided to continuously invest in the research and development of carbon nanotube materials for equipment.
KELAIWEI nano carbon material company draws backbone forces from technical experts team, production workshop center, after-sales maintenance center and other departments to form the after-sales center of products, so as to quickly respond to the needs of cooperative customers. Our company not only has a strict quality control system to ensure the quality and quality of ex-factory products, but also has an efficient logistics system and after-sales service system, so that customers can receive goods without worry and after-sales without worry.
The long conjugated chain segment of single chiral carbon nanotubes was successfully synthesized by our research group of Professor Du Pingwu of China University of Science and Technology. It is reported that the introduction of long conjugated chain synthesis of single chiral carbon nanotubes has been published in the form of a cover article in The Journal of the American Chemical Society. This achievement is of great significance and will provide conjugated polymer templates for the manufacture of ultra-pure single-walled carbon nanotubes. At the same time, it will also have great reference significance for the preparation of single chiral carbon nanotubes by solution method.
The application field of carbon nanotube materials is being accelerated. Because it has a conductivity of more than ten percent higher than that of traditional materials, its conductivity and thermal conductivity can be equivalent to that of copper and diamond. At present, it has been used by automobile manufacturers to manufacture automobile parts, battery manufacturers to manufacture high-end lithium batteries, and aviation industry to manufacture aircrafts...... Henan KELAIWEI Nano Carbon Material Co., Ltd. has increased the production of whisker carbon nanotubes to meet the market demand.
What is your method of making carbon nanotubes? Traditional manufacturing methods such as chemical manufacturing methods even have serious environmental pollution, and the purity of the manufactured products is not high. Our company adopts the patented technology developed by ourselves, "automatic and continuous production of whisker carbon nanotubes synthesis device" and "continuous production of whisker carbon nanotubes synthesis device", which are not only green and pollution-free, moreover, the efficiency is improved by more than a hundred times and the purity is very high. The purity of whisker carbon nanotubes provided by our company is as high as 99.99%.
Nanometer carbon crystal wallboard, acetylene black is the particle conductive agent, which needs more additive amount when forming the conductive network. The larger the additive amount, the lower the proportion of active material and the lower energy density of battery, whisker carbon nanotubes have linear nanofibers, which can quickly form a network conductive structure in the electrode with extremely low addition amount and have excellent conductive efficiency. Better performance can be maintained when the battery is multiplied or circulated.
