Elements
Showing 17–32 of 49 results
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Diamond Nanoparticles, ~10 nm, >99%
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Diamond Nanoparticles, ~100 nm, >99%
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Germanium Nanoparticless (Ge), ~120 nm, >99%
Read moreGermanium Nanoparticless (Ge), ~120 nm, >99%
Germanium powder and nanowires have shown exceptional promise as nanomaterials for lithium-ion batteries, taking full advantage of the inherent high surface area of the material. medical effects from germanium including anti-inflammatory properties, circulatory improvements, and an impact on the immune system. medical imaging and related endeavors.
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Gold Nanoparticles (Au), ~100 nm, >99%
Read moreGold Nanoparticles (Au), ~100 nm, >99%
Use as conductors from printable inks to electronic chips.1 As the world of electronics become smaller, Nanoparticless are important components in chip design. Nanoscale gold Nanoparticless are being used to connect resistors, conductors, and other elements of an electronic chip. Photodynamic Therapy , Therapeutic Agent Delivery, Sensors, Probes and Catalysis.
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Gold Nanoparticles (Au), ~25 nm, >99%
Read moreGold Nanoparticles (Au), ~25 nm, >99%
Use as conductors from printable inks to electronic chips.1 As the world of electronics become smaller, Nanoparticless are important components in chip design. Nanoscale gold Nanoparticless are being used to connect resistors, conductors, and other elements of an electronic chip. Photodynamic Therapy , Therapeutic Agent Delivery, Sensors, Probes and Catalysis.
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Gold Nanoparticles (Au), ~25 nm, >99%, PVP Coated
Read moreGold Nanoparticles (Au), ~25 nm, >99%, PVP Coated
Use as conductors from printable inks to electronic chips.1 As the world of electronics become smaller, Nanoparticless are important components in chip design. Nanoscale gold Nanoparticless are being used to connect resistors, conductors, and other elements of an electronic chip. Photodynamic Therapy , Therapeutic Agent Delivery, Sensors, Probes and Catalysis.
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Gold Nanoparticles (Au), 50 nm, >99%
Read moreGold Nanoparticles (Au), 50 nm, >99%
Use as conductors from printable inks to electronic chips.1 As the world of electronics become smaller, Nanoparticless are important components in chip design. Nanoscale gold Nanoparticless are being used to connect resistors, conductors, and other elements of an electronic chip. Photodynamic Therapy , Therapeutic Agent Delivery, Sensors, Probes and Catalysis.
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Graphite Nanoparticles (C), ~100 nm, >99%
Read moreGraphite Nanoparticles (C), ~100 nm, >99%
graphene/diamond precursor, high conductor, energy-storing, super lubricant
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Graphite Nanoparticles (C), ~25 nm, >99%
Read moreGraphite Nanoparticles (C), ~25 nm, >99%
graphene/diamond precursor, high conductor, energy-storing, super lubricant
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Graphite Nanoparticles (C), 50 nm, >99%
Read moreGraphite Nanoparticles (C), 50 nm, >99%
graphene/diamond precursor, high conductor, energy-storing, super lubricant
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Iron Nanoparticles (Fe), ~100 nm, >99%
Read moreIron Nanoparticles (Fe), ~100 nm, >99%
“As contrast agents for Magnetic Resonance Imaging (MRI)
As drug carriers for target specific drug delivery
As gene carriers for gene therapy
As therapeutic agents for hyperthermia based cancer treatments
As magnetic sensing probes for in-vitro diagnostics (IVD)
As Nanoadjuvant for vaccine and antibody production” -
Iron Nanoparticles (Fe), ~25 nm, >99%
Read moreIron Nanoparticles (Fe), ~25 nm, >99%
“As contrast agents for Magnetic Resonance Imaging (MRI)
As drug carriers for target specific drug delivery
As gene carriers for gene therapy
As therapeutic agents for hyperthermia based cancer treatments
As magnetic sensing probes for in-vitro diagnostics (IVD)
As Nanoadjuvant for vaccine and antibody production” -
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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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.”
