Professor Zheng dianmo, master tutor. Mainly engaged in the research of new chemical materials and chemical technology. Presided over and undertook 3 national science and technology planning projects, 12 provincial and ministerial-level science and technology planning projects, 18 engineering design projects, 23 horizontal scientific research projects and 3 departmental-level science and technology planning projects, many scientific research achievements have been successfully industrialized. It was awarded one China Patent Excellence Award by China Patent Office, four provincial and municipal Science and Technology Progress Awards, and one Science and Technology Achievement Award of Jiangxi higher education institutions.
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.
KELAIWEI company's "6s" lean management standard introduces and implements ISO9001 and IATF16949 quality management system, and the quality control department strictly controls the products produced by our company, to ensure the quality and quantity delivery of products for the vast number of cooperative customers. KELAIWEI is a scientific and technological enterprise, adhering to science and technology as the first productive force, striving to be the "leader of high-end Nanomaterials Industry".
Since its establishment, KELAIWEI company has attached great importance to the research and development of product technology and the application of new technologies. At present, Henan KELAIWEI Nano Carbon Material Co., Ltd. has deeply cooperated with Professor Sun Xiaogang's scientific research team of Nanchang University. Our company has obtained four national authorized invention patents, and many other patent applications are being accepted. Our company is committed to science and technology to benefit mankind and provide more convenient high-tech products for people's life and production.
Carbon nanotubes are nanomaterials, but they are not carbon nanofibers. Carbon nanofibers are nanomaterials. Carbon nanotubes have nearly perfect hexagonal structure connection, and their lifting weight is very, very light, but their mechanical properties, chemical properties and electrical properties are extremely rich, so they need further research and application development. Carbon nanotube materials are increasingly widely used in the field of modern high-end industrial product manufacturing.
How is graphene thermal film obtained? Put copper metal current-carrying strip, silver strip and graphene conductive layer between two layers of polyester film, and use science and technology, after a series of processing, we can get the graphene heating film. Henan KELAIWEI Nano Carbon Material Co., Ltd. Found that, in recent years, there have been some new types of floor heating in Jiangsu and Zhejiang areas, among which there are cases of using graphene heating film to make electric floor heating materials, which are popular in the market, with fluorescent lamp heating paper.
Fluorescent lamp heating paper, graphene is a kind of substance that naturally exists, and the accumulation of layers of graphene becomes the graphite we know in daily life. With the progress of human technology, we have further separated a single-layer structure from nature, and then graphene is the substance. Graphene is generally not suitable to be used as a separate conductive agent. At the same time, flaky graphene is easy to block lithium ions, and lithium ions cannot pass through the layers. The conductive path is long, and at the same time, the edge of graphene is easy to hang functional groups, it is not conducive to improving electrode conductivity.
