Nanographenex

Crystalline Boron (B) Micron Powder, Average Particle Size: 5 Micron, Purity: 99+%PRODUCT PROPERTIESMolecular Weight 10.811AppearanceBlack/BrownMelting Point       2100oC / 3812oFBoiling Point 2600oC / 4712oFDensity2.34 cryst. g/cm3FormCrystalline powderR..

Cubic Boron Nitride (BN) NanopowderPurity: 99.9% Size: 200 nmCubic boron nitride has a crystal structure analogous to that of diamond. Consistent with diamond being less stable than graphite, the cubic form is less stable than the hexagonal form, but the conversion rate between the two is ..

Cubic Boron Nitride (BN) NanopowderPurity: 99.5% Size: < 250 nmCubic boron nitride has a crystal structure analogous to that of diamond. Consistent with diamond being less stable than graphite, the cubic form is less stable than the hexagonal form, but the conversion rate between the tw..

Cuprous Oxide (CU2O) Micron PowderPurity: 99.5+%, Size: 1 µm Applications:The importance of micron particles/micron powder is growing day by day in today's world because of their unique properties. Like other micron particles/micron powder, Cuprous Oxide micron particles/micron powder..

Cuprous Oxide (Cu2O) Nanopowder/NanoparticlesPurity: 99.5+%, Size: 80 nmTechnical Properties:     Purity %99.5Colorred-brownAVERAGE PARTICLE SIZE (nm)80SPECIFIC SURFACE AREA (m2/g)55.0Melting Point (°C)1240.0Boiling Point (°C)1800.0Applications: The importance of n..

Double Walled Carbon NanotubesPurity: > 65%, Length: 40-50 µm, black Double walled carbon nanotubes are a unique, special class of carbon nanotubes, comprising two nanotubes placecd inside one another. There can be varying degrees of interaction between the two tubes depending on the di..

Electrolyte Lithium Hexafluorophosphate (LiPF6) for Lithium-ion Battery Research Development1 Kg in Stainless Steel ContainerElectrolyte Lithium Hexafluorophosphate (LiPF6) for Lithium-ion Battery Research Development. This inorganic, white, crystalline powder is sealed and delivered to you in ..

Fullerene-C60Fullerene - C60 which any of a progression of hollow carbon atoms that frame either a shut confine ("buckyballs") or a cylinder (carbon "nanotubes"), are called C60 particles, Buckyballs, or Buckminsterfullerene. Fullerene-C60 are particles composed of 60 carbon iotas conducted in a..

Fullerene-C60Fullerene - C60 which any of a progression of hollow carbon atoms that frame either a shut confine ("buckyballs") or a cylinder (carbon "nanotubes"), are called C60 particles, Buckyballs, or Buckminsterfullerene. Fullerene-C60 are particles composed of 60 carbon iotas conducted in a..

Fullerene-C60Fullerene - C60 which any of a progression of hollow carbon atoms that frame either a shut confine ("buckyballs") or a cylinder (carbon "nanotubes"), are called C60 particles, Buckyballs, or Buckminsterfullerene. Fullerene-C60 are particles composed of 60 carbon iotas conducted in a..

Fullerene-C60Fullerene - C60 which any of a progression of hollow carbon atoms that frame either a shut confine ("buckyballs") or a cylinder (carbon "nanotubes"), are called C60 particles, Buckyballs, or Buckminsterfullerene. Fullerene-C60 are particles composed of 60 carbon iotas conducted in a..

Fullerene-C60Fullerene - C60 which any of a progression of hollow carbon atoms that frame either a shut confine ("buckyballs") or a cylinder (carbon "nanotubes"), are called C60 particles, Buckyballs, or Buckminsterfullerene. Fullerene-C60 are particles composed of 60 carbon iotas conducted in a..

Fullerene-C70Fullerene-C70 is the fullerene particle comprising of 70 carbon molecules. Fullerene-C70 is an enclosed, combined ring structure which takes after a rugby ball, made of 25 hexagons and 12 pentagons, with a carbon iota at the vertices of every polygon and a bond along every polygon ed..

Fullerene-C70Fullerene-C70 is the fullerene particle comprising of 70 carbon molecules. Fullerene-C70 is an enclosed, combined ring structure which takes after a rugby ball, made of 25 hexagons and 12 pentagons, with a carbon iota at the vertices of every polygon and a bond along every polygon ed..

Fullerene-C70Fullerene-C70 is the fullerene particle comprising of 70 carbon molecules. Fullerene-C70 is an enclosed, combined ring structure which takes after a rugby ball, made of 25 hexagons and 12 pentagons, with a carbon iota at the vertices of every polygon and a bond along every polygon ed..

Fullerene-C70Fullerene-C70 is the fullerene particle comprising of 70 carbon molecules. Fullerene-C70 is an enclosed, combined ring structure which takes after a rugby ball, made of 25 hexagons and 12 pentagons, with a carbon iota at the vertices of every polygon and a bond along every polygon ed..

Fullerene-C70Fullerene-C70 is the fullerene particle comprising of 70 carbon molecules. Fullerene-C70 is an enclosed, combined ring structure which takes after a rugby ball, made of 25 hexagons and 12 pentagons, with a carbon iota at the vertices of every polygon and a bond along every polygon ed..

Fullerene-C70Fullerene-C70 is the fullerene particle comprising of 70 carbon molecules. Fullerene-C70 is an enclosed, combined ring structure which takes after a rugby ball, made of 25 hexagons and 12 pentagons, with a carbon iota at the vertices of every polygon and a bond along every polygon ed..

Gadolinium Oxide (Gd2O3) Micron PowderPurity: 99.99%, Size: 325 mesh Technical Properties:Purity (%)99.99ColorwhiteSize (mesh)325Applications: Gadolinium oxide is used in different fluorescent, luminescence and electric devices. It is used in lectroluminescent devices, cathode-ray tube,fie..

Gadolinium Oxide (Gd2O3) Nanopowder/NanoparticlesPurity: 99.95+%, Size: <100 nm Technical Properties:Purity (%)99.95    Colorwhite    Average Particle Size (nm)<100    Specific Surface Area (m2/g)>50    Bul..

Gold (Au) Nanopowder/NanoparticlesPurity: 99.99+%, Size: 10-20 nm Technical Properties:Bulk Density (g/cm3)0,5-0,9      True Density (g/cm3)19,32      Colorred - purple      Shapespherical   ..

Graphene Ethanol Dispersion, Purity: 99.5%,  Graphene: 0.5 wt%Graphene Purity (%)99,5Graphene Thickness (nm)0,6-1,2Diameter (µm)2,0-12,0AppearanceBlack LiquidConcentration (wt%)0.5 (mg/ml)Specific Surface Area (m2/g)600-1200Elemental Analysis (%)C            O99,6&..

Graphene Ethanol Dispersion, Purity: 99.5%,  Graphene: 1 wt%Graphene Purity (%)99,5Graphene Thickness (nm)0,6-1,2Diameter (µm)2,0-12,0AppearanceBlack LiquidConcentration (wt%)1(mg/ml)Specific Surface Area (m2/g)600-1200Elemental Analysis (%)C            O99,6 ..

Graphene Ethanol Dispersion, Purity: 99.5%,  Graphene: 2 wt%Graphene Purity (%)99,5Graphene Thickness (nm)0,6-1,2Diameter (µm)2,0-12,0AppearanceBlack LiquidConcentration (wt%)2 (mg/ml)Specific Surface Area (m2/g)600-1200Elemental Analysis (%)C            O99,6 ..

The structure of graphene nanoplatelets is best described as steps of parallel sheets of hexagonal carbon atoms. They agglomerate quickly due to Van der Waals forces generally 5 to twenty layers thick. Graphene nanoplatelets of various diameters up to 50 microns with an average thickness of 5 to 10 ..

The structure of graphene nanoplatelets is best described as steps of parallel sheets of hexagonal carbon atoms. They agglomerate quickly due to Van der Waals forces generally 5 to twenty layers thick. Graphene nanoplatelets of various diameters up to 50 microns with an average thickness of 5 to 10 ..

The structure of graphene nanoplatelets is best described as steps of parallel sheets of hexagonal carbon atoms. They agglomerate quickly due to Van der Waals forces generally 5 to twenty layers thick. Graphene nanoplatelets of various diameters up to 50 microns with an average thickness of 5 to 10 ..

The structure of graphene nanoplatelets is best described as steps of parallel sheets of hexagonal carbon atoms. They agglomerate quickly due to Van der Waals forces generally 5 to twenty layers thick. Graphene nanoplatelets of various diameters up to 50 microns with an average thickness of 5 to 10 ..