NANOPARTICLES AND NANOPOWDERS |
REF. | Product | Family | Subfamily | Others | Quantity |
700100 | TiO2 - Nanoparticles, anatase | Nanoparticles and nanopowders | Metal oxide nanoparticles | TiO2 - Nanoparticles, dry powder anatase phase
Produced by chemical synthesis
Average particle size: 4-8 nm
Dry nanopowder, free of organic stabilizers.
Easily forms collidal solutions in water.
Can be used to produce coatings | 10g |
700100 | TiO2 - Nanoparticles, anatase | Nanoparticles and nanopowders | Metal oxide nanoparticles | TiO2 - Nanoparticles, dry powder anatase phase
Produced by chemical synthesis
Average particle size: 4-8 nm
Dry nanopowder, free of organic stabilizers.
Easily forms collidal solutions in water.
Can be used to produce coatings | 50g |
700101 | TiO2 - Nanoparticles, type P25 | Nanoparticles and nanopowders | Metal oxide nanoparticles | Photocatalytic standard P25.
Dry Nanopowder. Mixed rutile / anatase phase
Average primary particle size: 21±5 nm.
Specific surface: 50±10 m2
/g; Purity after ignition: >99,5%
Ignition loss: < 2%; Moisture: < 1,5%
Al2O3 < 0,3 wt.%; SiO2 < 0,2 wt.%
Tapped density: ca. 130 g/L | 10g |
700101 | TiO2 - Nanoparticles, type P25 | Nanoparticles and nanopowders | Metal oxide nanoparticles | Photocatalytic standard P25.
Dry Nanopowder. Mixed rutile / anatase phase
Average primary particle size: 21±5 nm.
Specific surface: 50±10 m2
/g; Purity after ignition: >99,5%
Ignition loss: < 2%; Moisture: < 1,5%
Al2O3 < 0,3 wt.%; SiO2 < 0,2 wt.%
Tapped density: ca. 130 g/L | 50g |
700102 | TiO2 - Nanoparticles, rutile | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 2±1 nm. Dry nanopowder.
Readily forms colloidal solutions in water (up to 900g/L) and methanol | 1g |
700102 | TiO2 - Nanoparticles, rutile | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 2±1 nm. Dry nanopowder.
Readily forms colloidal solutions in water (up to 900g/L) and methanol | 5g |
700102 | TiO2 - Nanoparticles, rutile | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 2±1 nm. Dry nanopowder.
Readily forms colloidal solutions in water (up to 900g/L) and methanol | 25g |
700103 | TiO2 - Nanoparticles aqueous suspension, brookite/anatase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 2-5 nm.
Mixed brookite / anatase phase.
Stabilized by tetramethylammonium hydroxide
Aqueous colloidal solution, 20 wt.% | 75 mL |
700103 | TiO2 - Nanoparticles aqueous suspension, brookite/anatase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 2-5 nm.
Mixed brookite / anatase phase.
Stabilized by tetramethylammonium hydroxide
Aqueous colloidal solution, 20 wt.% | 250 mL |
700104 | TiO2 - Nanoparticles, anatase, hydrophobic. Stabilized by dodecylphosphonic acid and hexylamine | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 4-8 nm. Anatase phase.
Stabilized by dodecylphosphonic
acid and hexylamine.
Forms transparent colloidal
solutions in chloroform.
Supplied as a powder | 1g |
700104 | TiO2 - Nanoparticles, anatase, hydrophobic. Stabilized by dodecylphosphonic acid and hexylamine | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 4-8 nm. Anatase phase.
Stabilized by dodecylphosphonic
acid and hexylamine.
Forms transparent colloidal
solutions in chloroform.
Supplied as a powder | 10g |
700105 | TiO2 - Nanoparticles, type P25, hydrophobized | Nanoparticles and nanopowders | Metal oxide nanoparticles | Photocatalytic standard P25, hydophobized.
Dry Nanopowder. Mixed rutile / anatase phase
Average primary particle size: 21±5 nm.
Specific surface: 50±10 m2
/g; Purity after ignition: >99,5%
Ignition loss: < 2%; Moisture: < 1,5%
Al2O3 < 0,3 wt.%; SiO2 < 0,2 wt.%
Tapped density: ca. 130 g/L | 10g |
700105 | TiO2 - Nanoparticles, type P25, hydrophobized | Nanoparticles and nanopowders | Metal oxide nanoparticles | Photocatalytic standard P25, hydophobized.
Dry Nanopowder. Mixed rutile / anatase phase
Average primary particle size: 21±5 nm.
Specific surface: 50±10 m2
/g; Purity after ignition: >99,5%
Ignition loss: < 2%; Moisture: < 1,5%
Al2O3 < 0,3 wt.%; SiO2 < 0,2 wt.%
Tapped density: ca. 130 g/L | 50g |
700106 | Titanium oxide nanoparticles, aqueous 10wt.%, colloidal solution in MEK | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 4-8 nm. Anatase phase.
Stabilized by benzoic acid.
Forms transparent colloidal solutions in MEK
(methylethylketone) and many epoxides.
Supplied as a 100 g/L solution in MEK | 1 g suspension in 100 mL water |
700106 | Titanium oxide nanoparticles, aqueous 10wt.%, colloidal solution in MEK | Nanoparticles and nanopowders | Metal oxide nanoparticles | Average particle size: 4-8 nm. Anatase phase.
Stabilized by benzoic acid.
Forms transparent colloidal solutions in MEK
(methylethylketone) and many epoxides.
Supplied as a 100 g/L solution in MEK | 10 g suspension in 100 mL water |
700107 | TiO2 - Nanorods, 1% aqueous solution | Nanoparticles and nanopowders | Metal oxide nanoparticles | Length: 100 nm. Diameter: 20-40 nm
Stabilized only with citrate.
Phase: anatase
Supplied as a 1 wt.% aqueous solution | 10 ml |
700107 | TiO2 - Nanorods, 1% aqueous solution | Nanoparticles and nanopowders | Metal oxide nanoparticles | Length: 100 nm. Diameter: 20-40 nm
Stabilized only with citrate.
Phase: anatase
Supplied as a 1 wt.% aqueous solution | 100 ml |
700108 | Iron (II,III) oxide magnetic fluid | Nanoparticles and nanopowders | Metal oxide nanoparticles | 300 Gauss, aqueous suspension. Superparamagnetic. Contains 3% stabilizer (oleic acid), Average particle size:8 nm, Concentration: 7 vol. % (30 30 wt%) | 10 mL |
700109 | Iron (II,III) oxide magnetic fluid | Nanoparticles and nanopowders | Metal oxide nanoparticles | Excellent for L-b-L, LB coatings and for experiments
where absence of organic stabilizer is desirable.
Average particle size: 8±3 nm. Concentration: 3 % in water | 10 mL |
700110 | Iron (II,III) oxide magnetic fluid | Nanoparticles and nanopowders | Metal oxide nanoparticles | Without organic stabilizers, Dispersed in water at 3 wt%, Average particle size: 40 nm, Can be concentrated or removed by magnet or sedimentation | 10 mL |
700111 | Iron (III) oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | Fe2O3 nanoparticles aqueous suspension produced by chemical synthesis, average particle size: 4-8 nm, Supplied as 5% aqueous suspension, 10 g | 200 mL |
700111 | Iron (III) oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | Fe2O3 nanoparticles aqueous suspension produced by chemical synthesis, average particle size: 4-8 nm, Supplied as 5% aqueous suspension, 50 g | 1000 mL |
700112 | Indium (IV) Oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | In2O3 - Nanopowder
Produced by chemical synthesis
Average particle size: 4 nm | 10g |
700112 | Indium (IV) Oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | In2O3 - Nanopowder
Produced by chemical synthesis
Average particle size: 4 nm | 50g |
700112 | Indium (IV) Oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | In2O3 - Nanopowder
Produced by chemical synthesis
Average particle size: 4 nm | 100g |
700113 | Magnesium Oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | MgO - Nanopowder
Primary particle average size: 20 nm; Specific surface: 50 m2/g,Purity: > 99% | 25g |
700114 | Copper oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | CuO - Nanoparticles powder
Purity: >99%
Particle shape: spherical
Average particle size: ca. 40 nm
Specific surface: > 10 m2/g
Bulk density: ca. 0,8 g/cm3 | 10g |
700114 | Copper oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | CuO - Nanoparticles powder
Purity: >99%
Particle shape: spherical
Average particle size: 40 nm
Specific surface: > 10 m2/g
Bulk density: ca. 0,8 g/cm3 | 50g |
700115 | Cerium (IV) Oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | CeO2 - Nanoparticles aqueous 5 wt.% suspension
Produced by chemical synthesis
Average particle size: ca. 4 nm | 25 g |
700115 | Cerium (IV) Oxide | Nanoparticles and nanopowders | Metal oxide nanoparticles | CeO2 - Nanoparticles aqueous 5 wt.% suspension
Produced by chemical synthesis
Average particle size: ca. 4 nm | 50 g |
700116 | Aluminium Oxide, alpha phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, alpha-phase
Particle shape: spherical
Average particle size: 40 nm
Particle size full range: 5 - 150 nm
Specific surface: > 10 m2/g
Purity: > 99,8%
X-Ray analysis: >90% α-Al2O3 | 10 g |
700116 | Aluminium Oxide, alpha phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, alpha-phase
Particle shape: spherical
Average particle size: 40 nm
Particle size full range: 5 - 150 nm
Specific surface: > 10 m2/g
Purity: > 99,8%
X-Ray analysis: >90% α-Al2O3 | 50 g |
700116 | Aluminium Oxide, alpha phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, alpha-phase
Particle shape: spherical
Average particle size: 40 nm
Particle size full range: 5 - 150 nm
Specific surface: > 10 m2/g
Purity: > 99,8%
X-Ray analysis: >90% α-Al2O3 | 100 g |
700117 | Aluminium Oxide – Nanopowder, gamma phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, gamma
Particle shape: spherical, elongated
Average particle size: 40 nm; Specific surface: > 40 m2/g
Purity: > 99,9%; X-Ray analysis: γ-Al2O3 | 10 g |
700117 | Aluminium Oxide – Nanopowder, gamma phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, gamma
Particle shape: spherical, elongated
Average particle size: 40 nm; Specific surface: > 40 m2/g
Purity: > 99,9%; X-Ray analysis: γ-Al2O3 | 50 g |
700117 | Aluminium Oxide – Nanopowder, gamma phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, gamma
Particle shape: spherical, elongated
Average particle size: 40 nm; Specific surface: > 40 m2/g
Purity: > 99,9%; X-Ray analysis: γ-Al2O3 | 100 g |
700117 | Aluminium Oxide – Nanopowder, theta phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, theta
Surface area: 100 m2/g, Average particle size BET: 15 nm, Purity >99,8% (after ignition), Loss after ignition < 3% | 10 g |
700117-1 | Aluminium Oxide – Nanopowder, theta phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, theta
Surface area: 100 m2/g, Average particle size BET: 15 nm, Purity >99,8% (after ignition), Loss after ignition < 3% | 50g |
700117-1 | Aluminium Oxide – Nanopowder, theta phase | Nanoparticles and nanopowders | Metal oxide nanoparticles | Al2O3 - Nanopowder, theta
Surface area: 100 m2/g, Average particle size BET: 15 nm, Purity >99,8% (after ignition), Loss after ignition < 3% | 100g |
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