Professor Zheng dianmo's master director is mainly engaged in the research of new chemical materials and chemical technology and so on. He takes charge of 3 national science and technology planning projects, 12 provincial and ministerial science and technology planning projects and 18 engineering design projects, there are 23 horizontal scientific research projects, 3 departmental-level scientific and technological planning projects, and many scientific research achievements have been successfully industrialized. One Chinese Patent Excellence Award, four provincial and municipal Science and Technology Progress Awards, one Science and Technology Achievement Award for colleges and universities in Jiangxi province, common nano carbon materials.
Henan KELAIWEI nano carbon material company is a high-tech company co-founded by the technical team led by Professor Sun Xiaogang of Nanchang University and Zhengzhou Dengcao group. Henan KELAIWEI Nano Carbon Material Co., Ltd. has an initial investment of 0.55 billion yuan. After its establishment, KELAIWEI will own Henan company and Jiangxi company. The company has built a 300-ton whisker carbon nanotube powder project, which will be completed in two phases and will supply high-end products for China's carbon material industry.
Advanced technology, high-quality products and other advantageous resources in the industry can be combined with efficient enterprise management to produce high-quality products. At the beginning of the establishment of clevey nano carbon material company, an efficient management system was established through "lean management law. The production of products is managed "strictly" according to the standards that exceed ISO9001 and IATF16949 quality management system rules, so as to ensure that the quality of the products obtained by customers is superior and they can be used safely.
Common nano carbon materials, the field of patented technology of KELAIWEI company is well received. Our company cooperates with Professor Sun Xiaogang's technical team of Nanchang University and has strong scientific research background. Henan KELAIWEI Nano Carbon Material Co., Ltd. has obtained more than 60 invention patents, has published two carbon nanotube monographs and more than 40 papers. Clayweiren always insists on taking technology research and development as the driving force to promote the development of whisker carbon nanotubes industry.
Carbon nanotubes have ultra-high conductivity and other characteristics, which are suitable for building light and excellent conductive networks. The price of multi-walled carbon nanotubes sold in the early stage was as high as 60 USD/gram, which was not inferior to gold at all. In fact, the conductivity and thermal conductivity of carbon nanotube materials are basically the same as those of diamond and copper materials. Due to its good industrial development prospects, many high-tech enterprises in the world are engaged in their production research.
Brief introduction of graphite conductive agent and carbon nanotube (CNT) conductive agent. The application of graphite conductive agent in lithium batteries can obviously improve the conductivity of lithium ions and electrons. CNT conductive agents are often used to make high-end 3C digital batteries. Almost half of high-end digital batteries can see the shadow of CNT conductive agent. The use of conductive agent is very important for lithium battery manufacturing. Conductive agent can ensure that the battery electrode can maintain a good charging and discharging performance state continuously.
Kochin Black is also a kind of chain-like conductive agent with excellent conductivity, but the resistivity of Kochin Black is larger than that of whisker carbon nanotubes, and its specific surface area is also larger than that of whisker carbon nanotubes, so it is relatively more difficult to disperse, it is not conducive to the exertion of material characteristics. Like Kochin black, carbon nanotubes can also be used as conductive agents for lithium batteries. Carbon nanotubes can effectively combine with active substances in lithium batteries, forming a website structure of point-line combination, effectively improving the service life of batteries and reducing daily use losses.
