Nanomaterials
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Molybdenum Nanoparticles (Mo), ~100 nm, >99%
Read moreMolybdenum Nanoparticles (Mo), ~100 nm, >99%
additives in alloys for hi-tech applications, such as high-vacuum or corrosive environments.
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Molybdenum Nanoparticles (Mo), 500-800 nm, >99%
Read moreMolybdenum Nanoparticles (Mo), 500-800 nm, >99%
additives in alloys for hi-tech applications, such as high-vacuum or corrosive environments.
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Molybdenum Oxide Nanoparticles (MoO3), ~100 nm, >99%
Read moreMolybdenum Oxide Nanoparticles (MoO3), ~100 nm, >99%
“In electrochemical capacitors
In coatings, nanowires, nanofibers, plastics, and textiles
In specific alloy and catalyst applications
As catalysts, oxidation catalysts, cracking catalysts, hydrogenation catalysts, and pigments
In ceramics and glass production
As a raw material for the production of molybdenum metal.” -
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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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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.
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