CAS 7440-05-3 Pd nanopowder Ultrafine Palladium as catalyst
Size:20-30nm Purity:99.95% CAS No:7440-05-3 ENINEC No.:231-115-6 Appearance:black Powder Shape:spherical
13929258449
Size:20-30nm Purity:99.95% CAS No:7440-05-3 ENINEC No.:231-115-6 Appearance:black Powder Shape:spherical
We can supply different size products of niobium silicide powder according to client's requirements. Size:1-3um; Purity:99.5%;Shape:granular CAS No:12034-80-9;ENINEC No.:234-812-3
Ni2Si particle,99.5% purity,granular shape,is used for Microelectronic integrated circuit, nickel silicide film,etc. Size:1-10um; CAS No:12059-14-2;ENINEC No.:235-033-1
Buy Carbon Nanotubes used to Polymer Materials Modification, Diameter:3-15nm, 30-60nm;Length:15-30um, Purity:90-99%. Please click it to check the specification.
Brand:
SAT NANOItem NO.:
SAT-MWNT-10UPayment:
TT, Paypal, WUProduct Origin:
ChinaColor:
Black PowderShipping Port:
Shenzhen, ShanghaiLead Time:
1-5daysMin Order:
100gSpecification of conductive carbon nanotube:
SAT NANO is one of the best suppliery of carbon nanotubes, we offer 90-99% purity, diameter 3-15nm, 30-60nm and length 15-30um particle.
CAS No:308068-56-6
ENINEC No.:231-153-3
Appearance:black Powder
Application of conductive carbon nanotube:
The biggest advantage of using carbon nanotubes to prepare composite materials is that they are easy to process and shape.
The application of reinforced plastics instead of metals is increasing, but plastic products are prone to static electricity, which may lead to undesirable consequences. Therefore, it is necessary to develop antistatic reinforced materials. A study by Trinity College in Dublin, Ireland shows that adding 2-3% of multi-walled carbon nanotubes to plastics can greatly increase the conductivity. A study conducted by the University of Cambridge in the United Kingdom found that carbon nanotubes are dispersed in an epoxy resin, and low addition levels can produce higher conductivity.
GE has prepared conductive nanocomposites with carbon nanotubes. Various engineering plastics, such as polycarbonate and polyamide with a carbon nanotube content of 10%, have higher conductivity than carbon black and other fillers. Composite materials may have broad application prospects.