Nanocomposite materials CMWNT “PLASMAS”
The photo shows examples of different types of polymer nanocomposites CMWNT on paper.
The conductive nano fibers CMWNT. ” Nano Web ” on paper.
Long electrically conductive nanowires from CMWNT on paper. The length of the nanowires CMWNT the tens of centimeters, meters and more.
Electroconductive Nanofibres of CMWNT and electroconductive film on paper. layer, a continuous coating on the paper of CMWNT.
Nanocomposite lightweight flexible thin polymeric conductive materials. “Nano Web”. Nanowires.
The structure of electrically conductive nanowires, nano web of CMWNT.
Nanocomposite lightweight flexible thin conductive nanofibers, nanowires of CMWNT. “Nano web” FCMWNT nanofibers with a new and unique electrical and RF characteristics. Have a high conductivity, lightness, strength. New properties – transient response “semiconductor – metal”.
Conductive fibers – CMWNT new rocket fuel for spacecraft.
Protective, radio-absorbing coatings FCMWNT
Cover with a thin layer of FCMWNT on paper, fabric has protective properties radio frequency radiation absorption. Radio frequency radiation absorption is about 15-18 dB in the range 2-12 GHz
FCMWNT coatings on metallic basis. Foil Cu, Al, Ni, Ti, …
Conductive coatings of FCMWNT organic based. Textiles, Pulp, Polymers …
Coatings of FCMWNT grid Ni, Cu …
Polymer nanocomposites with FCMWNT
The thin, lightweight, flexible conductive film FCMWNT. Contents FCMWNT to 99% by weight. The electrical resistance, electrical conductivity can be adjusted from 1 Om/cm to n⋅100 Om/cm. The thickness of the films UMSNT = 10 micron ⋅ 100 micron. Weight of 1-2 mg/cm². Length, width – any = centimeters, meters, and etc. ….
Nanocomposite lightweight flexible thin polymeric conductive materials
The film nanocomposite (FCMWNT/polymer 95/5 wt.%) Is made of paper-based method based spinning liquid phase. Nanocomposite films oriented structure of FCMWNT have new abnormal electrical, thermal and strength properties at various orientations FCMWNT.
The temperature dependence of the resistivity of nanocomposite along the -1 and -2 across the nanotube orientation
Investigations of the temperature dependence of the resistivity of the films up and down orientation of the nanotubes in the range T = 20-140 0C showed irreversible transition from semiconductor to metallic conductivity
Coating of FCMWNT
internal and external surfaces of various shapes of different materials.
Left – CMWNT coating on the outer curved surface (glass). In the center – CMWNT coating on the inner conical surface (glass). Right – CMWNT coating on the inner curved surface (glass).
Converters solar energy into electrical energy based nanocomposite FCMWNT and organic materials. Efficiency of ~ 3%. 2005. Laboratory sample.
Self-organizing structured nanocomposite polymer materials FCMWNT for optical elements and devices 2003.