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