Polje sestavljenih materialov
Due to their excellent electrical and mechanical properties, carbon nanotubes are considered an ideal additive phase for composite materials. Carbon nanotubes, as reinforcing and conductive phases, have great potential for application in the field of nanocomposites. Carbon nanotube polymer composite material is the first carbon nanotube composite material that has been industrially applied. Due to the addition of carbon nanotubes with excellent electrical conductivity, the insulating polymer has achieved excellent electrical conductivity. In the field of materials, carbon nanotubes can be used as material reinforcing agents. Adding carbon nanotubes to materials such as plastics and rubber can improve their strength, hardness, and obrabni upor . Poleg tega lahko ogljikove nanocevke uporabite tudi kot materiale za baterijo zaradi visoke specifične površine in visoke prevodnosti .
Na področju nove energije
Lithium ion batteries: Carbon nanotubes, due to their unique electrical properties, can be used for the positive and negative electrodes of lithium-ion batteries, providing more insertion sites and increasing the capacity for charging and discharging. Power lithium batteries: Carbon nanotubes can be used as conductive agents for power lithium batteries, and due to their leading domestic production capacity, they will be more widely used as conductive agents in lithium batteries. The global carbon nanotube conductive paste market will maintain a high-speed growth of over 20% in the next four years. Solar cells: The high conductivity and light absorption properties of carbon nanotubes can be used to manufacture solar cells. Hydrogen fuel cell: Carbon Nanocevke se lahko uporabljajo kot nosilci katalizatorja v vodikovih gorivnih celicah za izboljšanje aktivnosti in stabilnosti katalizatorja, s čimer se izboljšajo učinkovitost in življenjsko dobo celice . superkondenzator Elektrokatalizator: Ogljikove nanocevke lahko uporabimo kot elektrokatalizatorje v reakcijah, kot je cepitev vode za proizvodnjo vodika in zmanjšanja ogljikovega dioksida za pripravo organskih spojin, izboljšanje hitrosti reakcije in učinkovitosti . sončne fotovoltanske materiale: ogljikove nanotube se lahko uporabljajo za proizvodnjo sončnih fotovolta. fotovoltaični materiali .
Elektronsko polje
Ogljikove nanocevke imajo na področju elektronike široko paleto aplikacij . zaradi visoke prevodnosti in toplotne prevodnosti se ogljikove nanocevke pogosto uporabljajo v elektronskih napravah, kot so tranzistorji . Poleg tega, da se lahko ogljikove luči, ker se lahko uporabijo tudi ogljikovi ogljiki, ki jih lahko uporabimo tudi kot fosfore za fosfore, ki jih lahko uporabijo tudi fosforji za emit. Nanocevke se pogosto uporabljajo tudi kot senzorji v nosljivih elektronskih napravah .
Vesoljsko polje
High temperature wear-resistant materials: Carbon nanotubes can be used to prepare high-temperature wear-resistant materials, such as aviation engine turbine blades. Carbon nanotubes have the characteristics of high strength, high stiffness, high thermal conductivity, and high chemical stability, making them ideal high-temperature wear-resistant materials. Air purifier: Carbon Nanocevke se lahko uporabijo za proizvodnjo učinkovitih čistilcev zraka . Zaradi njegove visoke specifične površine in kemijske aktivnosti lahko ogljikove nanocevke adsorbirajo škodljive pline in delce v zraku . Poleg industry. Carbon nanotube sensor: Carbon nanotube sensors can be used to detect harmful gases and particulate matter in the air. Due to their electrical properties and chemical activity, carbon nanotubes can be used to detect various harmful gases and chemicals, including carbon dioxide, formaldehyde, benzene, ammonia, etc. Carbon nanotube sensors can also be used to detect physical quantities such as mechanical stress, temperature, and humidity. Spacecraft thermal control: Carbon nanotubes can be used to manufacture efficient thermal control materials. Due to its high thermal conductivity, carbon nanotubes can quickly transfer heat to the surface of spacecraft, S tem se lahko zmanjša kopičenje toplote in preprečuje pregrevanje vesoljskih plovil . Poleg

