That can absorb many times it's weight in oil. Nanotubes to grow into a sponge like material Researchers have found that adding boron atoms during the growth of carbon nanotubes causes the Once attached to these cells, the nanotubes absorb light from an infraredĪpplicatoins Carbon Nanotubes and the EnvironmentĬarbon nanotubes are being developed to clean up oil spills. The antibody-carrying nanotubes are attracted to proteins produced by To be useful in lab tests to destroy breast cancer tumors. Nanotubes bound to an antibody that is produced by chickens have been shown Tests have shown that the artificial muscles can lift weights that areĢ00 times heavier than natural muscles of the same size. As well they haveĭemonstrated to the ability to load the nanotubes withĪnti-inflammatory drugs that can be applied directly to the areaĪrtificial muscles composed of yarn woven with carbon nanotubes and filled The surface of standard titanium implants. Shown that bone adheres better to titanium dioxide nanotubes than to ![]() Nanotubes to the surface of the implant material. Researchers are improving dental implants by Repair the electrical conductivity of damaged heart tissue by attaching Researchers at Texas Heart Institute are developing a method to That incorporating nitrogen and iron atoms into the carbon lattice of nanotubes results in nanotubes with Platinum on which most catalysts are based. The battery can beįormed by simply spraying layers of paint containing the components needed forĬarbon nanotubes can perform as a catalyst in a fuel cell, avoiding the use of expensive Nanotube-graphene structure is essentially one molecule with aĬathode layer of a battery that can be produced on almost any surface. Because the base ofĮach nanotube is bonded, atom to atom, to the graphene sheet the Then grow carbon nanotubes on the graphene sheet. The researchers first grow graphene on a metal substrate Graphene with very high surface area and very low electrical Researchers at Rice University have developed electrodes made from The researchers believe this type ofĬatalyst could be used in Lithium-air batteries, whichĬan store up to 10 times as much energy as lithium-ion Made from nitrogen-doped carbon-nanotubes, instead Nanotubes aligned parallel to each other the researchers hope to preventĭamage to the anode when the silicon expands. However silicon expands during a batteries dischargeĬycle, which can damage silicon based anodes. That the use of silicon can increase the capacity of Li-ion batteries by Nanotubes in anodes for Li-ion batteries. ![]() Researchers at North Carolina State University have demonstrated the Increased energy density for capacitors with the use ofĬarbon nanotubes in 3-D structured electrodes. Researchers at the University of Delaware have demonstarted Lithium metal batteries, which could have much higher capacity and faster charging than lithium ion batteries. Researchers at Rice University are using carbon nanotube films to stop the growth of dendrites on lithium metal anodes. The following survey ofĬarbon nanotube applications introduces many of these uses. The properties of carbon nanotubes have caused researchers and companies toĬonsider using them in several fields.
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