Nanomaterials
Showing 145–160 of 276 results
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MWCNTs in N-butanol, >99%, 3wt%
Read moreMWCNTs in N-butanol, >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 N-butanol, >99%, 3wt%
Read moreMWCNTs in N-butanol, >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 N-butanol, >99%, 3wt%
Read moreMWCNTs in N-butanol, >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 N-Methyl-2-Pyrrolidinone, >99%, 3wt%
Read moreMWCNTs in N-Methyl-2-Pyrrolidinone, >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 N-Methyl-2-Pyrrolidinone, >99%, 3wt%
Read moreMWCNTs in N-Methyl-2-Pyrrolidinone, >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 N-Methyl-2-Pyrrolidinone, >99%, 3wt%
Read moreMWCNTs in N-Methyl-2-Pyrrolidinone, >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 Water, >99%, 15wt%
Read moreMWCNTs in Water, >99%, 15wt%
“(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 Water, >99%, 3wt%
Read moreMWCNTs in Water, >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 Water, >99%, 3wt%
Read moreMWCNTs in Water, >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 Water, >99%, 3wt%
Read moreMWCNTs in Water, >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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Nano Anion in Water (Tourmaline), ~50 nm, >99%, 20wt%
Read moreNano Anion in Water (Tourmaline), ~50 nm, >99%, 20wt%
Anion for the preparation of textile finishing agent; Anion for the preparation of a variety of cosmetics; Anion for the preparation of a variety of coatings; Daily chemical used to manufacture a variety of negative ions health supplies; For the manufacture of ceramics, textiles, paper, wood and other various negative ion products.
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Nickel (III) Oxide Nanoparticles( Ni2O3), ~100 nm, >99%
Read moreNickel (III) Oxide Nanoparticles( Ni2O3), ~100 nm, >99%
battery industry, carbide, ceramic glazes, pigments and varistors doped materials.
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Nickel Nanoparticles (Ni), ~500 nm, >99%
Read moreNickel Nanoparticles (Ni), ~500 nm, >99%
“The key applications of nickel nanoparticles are listed below:
Anode of solid oxide fuel cells or conductive electrolytic layer of proton exchange membrane fuel cells
Automotive catalytic converters
Coatings, plastics, nanowires, nanofibers and textiles
Magnetic fluid and catalyst
Propellant and sintering additive.” -
Nickel Nanoparticles (Ni), 50 nm, >99%
Read moreNickel Nanoparticles (Ni), 50 nm, >99%
“The key applications of nickel nanoparticles are listed below:
Anode of solid oxide fuel cells or conductive electrolytic layer of proton exchange membrane fuel cells
Automotive catalytic converters
Coatings, plastics, nanowires, nanofibers and textiles
Magnetic fluid and catalyst
Propellant and sintering additive.” -
Platinum Nanoparticles (Pt), 50 nm, >99%, Self-dispersing
Read morePlatinum Nanoparticles (Pt), 50 nm, >99%, Self-dispersing
“Electrocatalysts and catalytic converters
Magnetic Powders
Polymer membranes
Cancer therapy
Coatings, plastics, nanofibers and textiles.” -
Platinum Nanoparticles in Water (Pt), ~5 nm, >99%, 1000ppm
Read morePlatinum Nanoparticles in Water (Pt), ~5 nm, >99%, 1000ppm
Electronic display devices such as anti-electron radiation; A variety of plastic film; Transparent electricity conductive glue, radiation protection, infrared ray (IR) protection and antistatic coating
