In terms of scientific research organization, KELAIWEI company not only strives to build independent research and development team, but also establishes and researches and development platform, fully absorbs all kinds of forces to integrate, and attracts domestic first-class professionals to join and cooperate, strive to attract domestic scientific research experts to participate in research and development, keep close contact with domestic and foreign famous scientific research institutions of nano-carbon materials, and form a research, development and application system of nano-carbon materials developed independently and cooperated with scientific research institutes, strive towards the direction of maintaining the advantages of research and development, and the carbon crystal board can keep the highest temperature.
KELAIWEI makes high-performance and stable carbon nanotubes. At the beginning of its establishment, KELAIWEI paid attention to maintaining technical advantages and maintained close cooperation with university research institutions and expert teams. Our company has deeply cooperated with Professor Sun Xiaogang's team and has applied for more than 100 invention patents, of which nine have obtained national authorized invention patents and two international PCT patents. Relying only on technical advantages, KELAIWEI's products have been completed from Henan and Jiangxi to more than 60 countries in the world.
Henan KELAIWEI nano-Carbon Material Co., Ltd. is one of the first enterprises to research and develop the synthesis of whisker-like carbon nanotubes in China, especially in the field of production and preparation of whisker-like carbon nanotubes, possessing 9 national invention patents, it has issued and published two books on carbon nanotubes, applied for more than 60 patents and is increasing year by year. It has great technical advantages in the field of whisker-like carbon nanotubes.
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.
With the highest temperature of carbon crystal plate heating, human's pursuit of high-end materials never stops. Carbon nanotubes are one of the artificial high-end materials. The diameter of carbon nanotubes is very small, and their conductivity is more than 10% better than that of carbon black. At the same time, their strength can reach more than 100 times of the strength of steel. Therefore, carbon nanotubes are widely used for high conductivity, high strength and other demanding precision product manufacturing fields. The chief engineer of Henan KELAIWEI Nano Carbon Material Co., Ltd has developed and studied the application of carbon nanotubes for more than 20 years, and has accomplished a lot in the technical field of carbon nanotubes.
What are the advantages of Carbon Nanotubes? Carbon nanotubes are a new type of nanomaterials, which are widely used in modern society. Many products use carbon nanotubes. Carbon nanotubes are light in weight and small in volume, but not as good as tens of thousands of hair filaments. Carbon nanotubes have good thermal insulation and waterproof properties and can be used to make invisible equipment. Carbon nanotubes have rich mechanical properties, mechanical properties, chemical properties and physical properties.
Far infrared emission paper presents a new heating mechanism. Different from traditional heating, it first heats itself and then conducts heat through temperature difference. After we electrify the far infrared transmitting paper, the whisker carbon nanotubes in it will have friction, oscillation, drift and other activities in the nanometer level, and generate electromagnetic waves, the so-called phonon oscillation generates heat. Phonon energy is transmitted in the form of far infrared, without internal phonon scattering loss, the object can be heated quickly.
