What are the different nanotechnological materials?
nanotechnological materials build objects between 1 and 100 nanometers, with the only nanometer equals one billion meters. All materials found in nature are basically designed in nanoparticles, but objects manipulated by people at the molecular level to create something new, form nanotechnological materials. The best early example of this technology is carbon nanotube, made by changing the dimensions of the carbon molecules to the honeycomb grille. Carbon nanotubes create a graphite sheet that is significantly lighter and stronger than steel. Products such as wheel frames, batteries and tennis missiles are examples of what can be made of carbon nanotubes. Another important product of titanium oxide is the solar panel that intensifies the energy received from sunlight, MakPRO more efficient and powerful energy source. Scientists have found that zinc oxide is another example of nanotechnological materials with similar benefits to titanium oxide, including the ability to block UV rays and intensifyInternal effects of light capture in solar panels.
both silver and gold particles are strong nanotechnological materials that offer new solutions in a wide range of industries. For example, silver nanoparticles were trumpeted as a solution to everything from better toothpaste to possible treatment for infectious diseases. Gold nanoparticles also have potentially important medical applications, from cancer detection in early stages to arthritis treatment. Both silver and gold nanoparticles can be used for electronic connection, which provides greater flexibility and power than traditional methods.
Many nanotechnological materials come from more common sources. The clay particles handled at the Nano level create a stronger polymer, which is also lighter and more resistant to temperatures. Generally, clay -based polymers can be used in clothing, household objects and car parts. The building industry examines wayshow to improve common items such as cement and glass to create new materials that are more energy efficient, easier to produce and more environmentally friendly.
Many nanotechnological materials were controversial. Material manipulation at the molecular level leads to the possibility of toxicity of materials and by -products themselves. Other concerns are energy consumption in the creation of materials and the fact that it still has to prove that it holds in time. Despite this, nanotechnology materials develop due to the promise of greater innovation for electronics, textiles, production and their potentially revolutionary effect on medicine.