
CdTe quantum dots, 620±5 nm, hydrophilic, dry
Mw: ~88000 Da Size: ~3,6 nm.
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Mw: ~90000 Da Size: ~3,7 nm.

Mw: ~90000 Da Size: ~3,7 nm.

Mw: ~103000 Da Size: ~3,8 nm.

Mw: ~111000 Da Size: ~3,9 nm.

Mw: ~124000 Da Size: ~4,0 nm.

Mw: ~146000 Da Size: ~4,2 nm.

Mw: ~160000 Da Size: ~4,3 nm.

Mw: ~177000 Da Size: ~4,5 nm.

Mw: ~200000 Da Size: ~4,7 nm.

Mw: ~230000 Da Size: ~5,0 nm.

Mw: ~320000 Da Size: ~5,4 nm.

Mw: ~430000 Da Size: ~6,0 nm.

Mw: ~550000 Da Size: ~6,5 nm.

Mw: ~700000 Da Size: ~7,1 nm.

Mw: ~900000 Da Size: ~7,8 nm.

Mw: ~1000000 Da Size: ~8,6 nm.

Mw: ~1630000 Da Size: ~9,4 nm.

CeO2 - Nanoparticles aqueous 5 wt.% suspension Produced by chemical synthesis Average particle size: ca. 4 nm.

CuCrO2, nanopowder, hydrophilic Primary crystallites size: ca. 30 nm SSA: ca. 30 m²/g Bulk density: ca. 0,02 kg/L CuCrO2 nanoparticles, a delafossite-type oxide, have garnered significant interest in various fields due to their unique structural, electronic, and optical properties. This material is known for its stability, conductivity, and wide bandgap, making it suitable for a range of applications including photocatalysis, gas sensing, thermoelectricity, bataries and supercapacitors etc.

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

Stabilized with polyacrylic acid Average particle size: 70 ± 20 nm Can be used as a catalyst layer for electroless deposition of conductive coatings.

Stabilized with polyacrylic acid Average particle size: 70 ± 20 nm Can be used as a catalyst layer for electroless deposition of conductive coatings.