Henan KELAIWEI Nano Carbon Material Co., Ltd. has been insisting on technology since its establishment. After more than 20 years of technological development, our company has become a high-end manufacturing technology enterprise in the carbon nanotube material industry. With the continuous increase of the market demand for carbon nanotube materials, in order to meet the market demand, the supply of high-quality KELAIWEI nanomaterials products, KELAIWEI company has invested in the construction of the whisker carbon nanotube powder project whose output value reaches 300 tons per year.
Conductive agents are widely used. What is the future development of conductive agents? The conductive agent has the traditional conductive agent material represented by carbon black, in recent years, new high-end conductive materials represented by carbon nanotubes have been developed. Various kinds of conductive agents are constantly appearing in the laboratory. The new conductive agent graphene has not been applied on a large scale because of its high cost, however, its performance is far higher than that of traditional conductive agents such as carbon black. With the arrival of graphene mass production, it is bound to be widely used in the future. Multi-walled carbon nanotubes are Electrochemical.
Multi-walled carbon nanotube electrochemistry, "technology creates the future". Henan KELAIWEI Nano Carbon Material Co., Ltd regards "product quality" as "enterprise life" and firmly believes that "science and technology are the first productive forces". Our company has perfected the scientific and advanced quality management system since its establishment, and through the reward and punishment mechanism, encourage innovation and invention, supervise high-quality and safe production. Our products are exported to more than 60 countries and regions, and we have built production bases in Henan and Jiangxi.
Henan KELAIWEI Nano Carbon Material Co., Ltd. has made a technological breakthrough again in the study on the controllability of the growth of whisker carbon nanotubes. KELAIWEI nano-carbon material company can precisely control the length and specific surface area of whisker carbon nanotubes and the diameter of whisker carbon nanotubes. Both Henan KELAIWEI company and Jiangxi KELAIWEI Nano Carbon Material Co., Ltd have applied this technology to the industrial mass production of whisker carbon nanotubes.
Electromagnetic shielding materials can be made by uniformly dispersing carbon nanotubes into polymer materials. Carbon nanotube shielding materials generally have broadband microwave absorption capacity, and at the same time have the characteristics of light weight and good electrical conductivity. Preliminary achievements have been made in the study of shielding materials of carbon nano-tube batteries. The shielding performance of carbon nano-tube electromagnetic shielding materials is close to that of metal copper foil and aluminum foil in high frequency band, and the shielding performance has been further improved, it is possible to replace metals for shielding materials in some fields.
A research institution of hidden materials and wearable equipment in Beijing paid close attention to the whisker carbon nanotubes produced by Henan KELAIWEI nanometre Carbon Material Co., Ltd. and expressed its willingness to invest and cooperate with KELAIWEI company to explore the market. The whisker carbon nanometer synthesized by our company through our own technology has ultra-high purity, with very few metal impurities and purity higher than 95.950%. At the same time, its graphitization degree is higher than 65%.
The higher the purity of whisker carbon nanotubes and the less metal impurities are, the higher the purity can be selectively applied in the manufacturing field of high-end power lithium batteries. KELAIWEI company found that because the ultra-high purity whisker carbon nanotubes have very high adsorption force on electrolyte, therefore, whisker carbon nanotubes with very little impurity content of ultra-high purity can be used as the anode material and anode material additive of lithium ion battery.
