
Graphene Oxide - aqueous dispersion - 4 mg/ml, thickness 0.8-1.2 nm
Thickness: 0,8-1,2 nm; Particles lateral size: 5-30 μm 4 mg/mL suspension in water; pH: ca. 6-7 C: 40-48%; O: 42-49 %; H: 1-4%; S: < 2%; N: < 1%.
Compare products with technical highlights, document cues, and product details.

In2O3 - Nanopowder Produced by chemical synthesis Average particle size: ca. 4 nm.

Fe2O3 - Nanoparticles aqueous suspension Produced by chemical synthesis Average particle size: 4-8 nm Supplied as 5% aqueous suspension.

Fe(IO3)3 nanopowder Particle shape: spherical to elongated; Primary particle average size: 40-80 nm Second harmonic generation nanoparticles for non-linear optics.

Purity: > 97,0% Particle shape: spherical Average particle size: 30 - 60 nm. Particle size full range: 5 - 200 nm Fe-state: ferromagnetic Specific surface area: > 12 m2/g Bulk density: > 0,5 g/cm3 C-content: 11-14%. Controlled admixtures, %: Cu < 0,4; W < 0,2.

Melamine formaldehyde spherical monodisperse latex microparticles. Size range: 4 Diameter: 1,989 µm CV: < 5% Surface modification: not modified Fluorescence: not fluorescent Concentration: 5 wt.%.

Melamine formaldehyde spherical monodisperse latex microparticles. Size range: 4 Diameter: 2,096 µm CV: < 5% Surface modification: not modified Fluorescence: Ex.410nm / Em.515nm Concentration: 2,5 wt.%.

Primary particle average size: ca. 20 nm; Specific surface: ca. 50 m2/g; Purity: > 99%.

Without organic stabilizers. Superparamagnetic. Excellent for L-b-L, LB coatings and for experiments where absence of organic stabilizer is desirable. Average particle size: 8±3 nm. Concentration: ca. 3%.

Without organic stabilizers Dispersed in water at 3 wt.% Average particle size: ca. 40 nm Can be concentrated or removed by magnet or sedimentation.

ca. 300 Gauss, aqueous suspension. Superparamagnetic. Contains ca. 3% of stabilizer (oleic acid) Average particle size: 8 nm Concentration: ca. 7 vol.% (ca. 30 wt.%).

MnCO3 Purity: > 99,0% Particles shape: spherical Average particle size: 2-3 μm.

MnCO3 Purity: > 99,0% Particles shape: spherical Average particle size: 4-5 μm.

Average diamond primary particle size: 4 nmDiamond content: min. 20%Ash content: < 0,3%.

Ash content: < 0,1%.

Enhanced suspension stability in waterBulk density: 0,69 g/cm3Average cluster size: ca. 4 nmSpecific surface (BET): min. 350 m2/gNon-diamond carbon content: tracesControlled admixtures, %: Fe < 0,3; Cu < 0,01;Zn < 0,01; Mn < 0,01; Si+Cr+Ca+Ti < 0,01Losses at tempering: max. 2,4%Ash content: <1,4%; Picnometric density: 3,18 g/cm3. Zeta potential: -50 ± 5 mV.

Aqueous suspension of modified G01 nanodiamonds at 100mg/mL concentration.Nanodiamonds with the surface modified by polyelectrolyte electrostatic adsorption.Zeta potential: +50 ± 5 mV.

Average diamond primary particle size: 4 nmDiamond content: min. 20%Ash content: < 6%.

Average particle size: ca. 50 nm.

Average diameter: 200-300 nm Length: up to 200 μm.

Highly luminescent, heavy-metal-free InP quantum dots coated with Zn(Se,S) shell and hydrophobic ligands. Emission maximum 550 ± 10 nm Wide emission peak width (FWHM) <60 nm. Quantum yield > 50% Don't contain Cd, Se, Hg and Cu Readily soluble in toluene, chloroform and similar solvents.

Highly luminescent, heavy-metal-free InP quantum dots coated with Zn(Se,S) shell and hydrophobic ligands. Emission maximum 570 ± 10 nm Wide emission peak width (FWHM) ca. 60 nm. Quantum yield > 40% Don't contain Cd, Se, Hg and Cu Readily soluble in toluene, chloroform and similar solvents.

Highly luminescent, heavy-metal-free InP quantum dots coated with ZnS shell and hydrophobic ligands. Emission maximum 520 ± 10 nm Wide emission peak width (FWHM) ca. 40 nm. Quantum yield > 80% Don't contain Cd, Se, Hg and Cu Readily soluble in toluene, chloroform and similar solvents.

Highly luminescent, heavy-metal-free InP quantum dots coated with ZnS shell and hydrophobic ligands. Emission maximum 620 ± 10 nm Wide emission peak width (FWHM) ca. 45 nm. Quantum yield > 80% Don't contain Cd, Se, Hg and Cu Readily soluble in toluene, chloroform and similar solvents.