Carbon Nanotubes & Graphene
We are the exclusive manufacturers of Multi Walled Carbon Nanotube (MWNT’s) and Graphene. We offer best quality MWNT’s and Graphene.
Showing 1–16 of 33 results
-
Carbon Nanotubes-Graphene mixture in water, >99%, 6wt%
Read moreCarbon Nanotubes-Graphene mixture in water, >99%, 6wt%
“(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
.” -
CNTs Transparent Static Conductive Water-based Coating, >99%
Read moreCNTs Transparent Static Conductive Water-based Coating, >99%
“(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
.” -
Graphene in Water, >99%
Read moreGraphene in Water, >99%
Medicine: Tissue engineering, Contrast agents, bioimaging, Polymerase chain reaction, Devices, Drug delivery, Biomicrorobotics, Testing, Toxicity.
Electronics: Transistors, Transparent conducting electrodes, Frequency multiplier, Optoelectronics, Hall effect sensors, Quantum dots, Organic electronics, Spintronics, Conductive ink.
Light processing: Optical modulator, Ultraviolet lens, Infrared light detection, Photodetector.
Energy: Generation, Storage.
Sensors: Biosensors, Pressure sensors, NEMS, Molecular adsorbtion, Piezoelectric effect, Body motion, Magnetic
Environmental: Contaminant removal, Water filtration, Permeation barrier, heavy metals sensing.
Other: Plasmonics and metamaterials, Lubricant, Radio wave absorption, Redox, Nanoantennas, Sound transducers, Waterproof coating, Coolant additive, Reference material, Thermal management, Structural material, Catalyst, Aviation. -
Graphene Nanoplatelets in Water, >99%, Average 6 Layers, 6wt%
Read moreGraphene Nanoplatelets in Water, >99%, Average 6 Layers, 6wt%
Medicine: Tissue engineering, Contrast agents, bioimaging, Polymerase chain reaction, Devices, Drug delivery, Biomicrorobotics, Testing, Toxicity.
Electronics: Transistors, Transparent conducting electrodes, Frequency multiplier, Optoelectronics, Hall effect sensors, Quantum dots, Organic electronics, Spintronics, Conductive ink.
Light processing: Optical modulator, Ultraviolet lens, Infrared light detection, Photodetector.
Energy: Generation, Storage.
Sensors: Biosensors, Pressure sensors, NEMS, Molecular adsorbtion, Piezoelectric effect, Body motion, Magnetic
Environmental: Contaminant removal, Water filtration, Permeation barrier, heavy metals sensing.
Other: Plasmonics and metamaterials, Lubricant, Radio wave absorption, Redox, Nanoantennas, Sound transducers, Waterproof coating, Coolant additive, Reference material, Thermal management, Structural material, Catalyst, Aviation. -
Graphene, >99%, Average 6 Layers
Read more -
Multi Walled Carbon Nanotubes (MWNTs), > 97%, COOH functionalized
Read moreMulti Walled Carbon Nanotubes (MWNTs), > 97%, COOH functionalized
Potential applications of carbon nanotubes are:(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
-
Multi Walled Carbon Nanotubes (MWNTs), > 97%, COOH functionalized
Read moreMulti Walled Carbon Nanotubes (MWNTs), > 97%, COOH functionalized
Potential applications of carbon nanotubes are:(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
-
Multi Walled Carbon Nanotubes (MWNTs), > 97%, OH functionalized
Read moreMulti Walled Carbon Nanotubes (MWNTs), > 97%, OH functionalized
Potential applications of carbon nanotubes are:(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
-
Multi Walled Carbon Nanotubes (MWNTs), > 97%, OH functionalized
Read moreMulti Walled Carbon Nanotubes (MWNTs), > 97%, OH functionalized
Potential applications of carbon nanotubes are:(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
-
Multi Walled Carbon Nanotubes (MWNTs), > 97%, Pristine
Read moreMulti Walled Carbon Nanotubes (MWNTs), > 97%, Pristine
Potential applications of carbon nanotubes are:(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
-
Multi Walled Carbon Nanotubes (MWNTs), > 97%, Pristine
Read moreMulti Walled Carbon Nanotubes (MWNTs), > 97%, Pristine
Potential applications of carbon nanotubes are:(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
-
Multi Walled Carbon Nanotubes (MWNTs), > 97%, Pristine
Read moreMulti Walled Carbon Nanotubes (MWNTs), > 97%, Pristine
Potential applications of carbon nanotubes are:(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
-
MWCNTs in Ethanol, >99%, 3wt%
Read moreMWCNTs in Ethanol, >99%, 3wt%
“(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
.” -
MWCNTs in Ethanol, >99%, 3wt%
Read moreMWCNTs in Ethanol, >99%, 3wt%
“(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
.” -
MWCNTs in Ethanol, >99%, 3wt%
Read moreMWCNTs in Ethanol, >99%, 3wt%
“(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
.” -
MWCNTs in Isopropanol, >99%, 3wt%
Read moreMWCNTs in Isopropanol, >99%, 3wt%
“(1) additives in polymers; (2) catalysts; (3) electron field emitters for cathode ray lighting elements; (4) flat panel display; (5) gas-discharge tubes in telecom networks; (6) electromagnetic-wave absorption and shielding; (7) energy conversion; (8) lithium-battery anodes; (9) hydrogen storage; (10) nanotube composites (by filling or coating); (11) nanoprobes for STM, AFM, and EFM tips; (12) nanolithography; (13) nanoelectrodes; (14) drug delivery; (15) sensors; (16) reinforcements in composites; (17) supercapacitor.
.”
