Nanomaterials and reagents

Carbon Nanofibres Solution produced via the catalytic carbon vapour deposition process. The manufacturing processes provide a highly graphitized material without amorphous carbon – Available in 1.0 mL and 5.0 mL.

Carbon nanotubes are produced via CVD and purified to remove free amorphous carbon deposits and catalyst metallic particles. They are functionalized with -COOH groups - Available in 1.0 mL and 5.0 mL.

Graphene Solution - Available in 1.0 mL and 5.0 mL.

Graphene Oxide Solution, based in the modification of the Hummer's Method specially designed for electrode modification providing an enhanced electrochemical active area and improved electronic transfer properties - Available in 1.0 mL and 5.0 mL.

Aqueous Aqueous graphene Oxide Solution, based in the modification of the Hummer's Method specially designed for electrode modification providing an enhanced electrochemical active area and improved electronic transfer properties.- Available in 1.0 mL and 5.0 mL.

Mesoporous Carbon Solution is a homogeneous, black solution with a high purity of mesoporous carbon nanopowder.- Available in 1.0 mL and 5.0 mL

Graphene oxide prepared by a modification of the Hummer's method. This yields a material with a significant number of oxygen-containing functional groups which assures homogeneous colloidal suspensions in polar solvents without addition of any surfactant.  - Available in 0.1 gr and 1.0 gr.

Multi-Walled Carbon Nanotubes grown by CVD process purified to more than 95%.

-COOH functionalized Multi-Walled Carbon Nanotubes (approx. 5% functionalisation) grown by CVD process purified to more than 95%.

Colloidal Gold Nanoparticles Solution  produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the present of a stabilizer agent. Colloidal nanospheres Nanoparticles can be later purified and concentrated removing any stabilizing agent.  Available in 25 mL.

Colloidal Gold Nanoparticles Solution produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the present of a stabilizer agent. Colloidal nanospheres Nanoparticles can be later purified and concentrated removing any stabilizing agent - Available in 1.0 mL.

Palladium Nanoparticles are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the present of a stabilizer agent. Colloidal nanospheres Nanoparticles can be later purified and concentrated removing any stabilizing agent - Available in 25 mL.

Palladium Nanoparticles are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the present of a stabilizer agent. Colloidal nanospheres Nanoparticles can be later purified and concentrated removing any stabilizing agent - Available in 1.0 mL.

Platinum Nanoparticles are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the present of a stabilizer agent. Colloidal nanospheres Nanoparticles can be later purified and concentrated removing any stabilizing agent - Available in 25 mL.

Platinum Nanoparticles are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the present of a stabilizer agent. Colloidal nanospheres Nanoparticles can be later purified and concentrated removing any stabilizing agent - Available in 1.0 mL.

Silver Nanowires produced via the electrochemical deposition in an alumina template. Our Silver Nanowires have an average diameter of 150-250 nm and an average length varying in two ranges: 6-9 µm or 12-18 µm. - Available 1.5 mL and 4.5 mL.

Gold Nanowires produced via the electrochemical deposition in an alumina template. Our Gold Nanowires have an average diameter of 150-250 nm and an average length varying in two ranges: 2- 6 µ m or 12-18 µm. - Available in 1.5 mL and 4.5 mL.

Nickel Nanowires produced via the electrochemical deposition in an alumina template. This magnetic Nickel Nanowires have an average diameter of 150-250 nm and an average length that can be tuned from 6 to 8 µm. - Available in 1.5 mL and 4.5 mL.

Palladium Nanowires produced via the electrochemical deposition on an alumina template. Our Palladium Nanowires have an average diameter of 150-250 nm and an average length of 10-16 µm.- Available in 1.5 mL and 4.5 mL.

Platinum Nanowires produced via the electrochemical deposition on an alumina template. Our Platinum Nanowires have an average diameter of 150-250 nm and an average length of 10-16 µm. - Available 1.5 and 4.5 mL.

Platinum-gold-nickel (Pt-Au-Ni) Nanowires produced via the electrochemical deposition on an alumina template. Our Pt-Au-Ni Nanowires have an average diameter of 150-250 nm and an average length varying in two ranges: Pt (1.5 µm) - Au (5 µm) - Ni (2 µm) or Pt (1.5 µm) - Au (2 µm) - Ni (2 µm). - Available 1.5 mL and 4.5 mL.

Streptavidin-modified nickel nanowires are an excellent option for the immobilization of a large amount of biotinylated molecules being the perfect candidate to be use in magnet-based (bio)assays - Available in 200 μL.

Core CdSe are produced via chemical synthesis at high temperature in organic solvent (chloroform).QDCORE-550: em = 550 nm; concentration= 21 ± 2μM; diameter Ø= 2.52 ± 0.03 nm - Available in 10 mL.

Core CdSe are produced via chemical synthesis at high temperature in organic solvent (chloroform) -  QDCORE-570: em = 570 nm; concentration= 23 ± 2μM; diameter Ø= 3.02 ± 0.01 nm - Available in 10 mL. 

Core CdSe are produced via chemical synthesis at high temperature in organic solvent (chloroform). QDCORE-585: em = 585 nm; concentration= 24 ± 2μM; diameter Ø= 3.18 ± 0.05 nm - Available in 10 mL.

Core/shell CdSe/ZnS are produced via chemical synthesis at high temperature in organic solvent. QDCORESHELL-595: em = 595 nm; concentration= 24 ± 2μM; diameter Ø= 3.21 ± 0.05 nm - Available in 10 mL.

Core/shell CdSe/ZnS are produced via chemical synthesis at high temperature in organic solvent.QDCORESHELL-610: em = 610 nm; concentration= 19 ± 3μM; diameter Ø= 3.92 ± 0.03 nm - Available in 10 mL.

Core/shell CdSe/ZnS are produced via chemical synthesis at high temperature in organic solvent. QDCORESHELL-620: em = 620 nm; concentration= 20 ± 2μM; diameter Ø= 4.21 ± 0.02 nm - Available in 10 mL.

CdSe/ZnS aqueous soluble Quantum Dots (QDs). These aqueous soluble fluorescent nanocrystals present carboxyl groups in the free end which makes them very interesting nanoparticles for conjugation procedures. QDCORESHELL-585-AQU: em= 585 nm ; concentration= 3.5 ± 0.1 μM; diameter Ø= 3.0 ± 0.15 nm - Available in 1 mL.

CdSe/ZnS aqueous soluble Quantum Dots (QDs). These aqueous soluble fluorescent nanocrystals present carboxyl groups in the free end which makes them very interesting nanoparticles for conjugation procedures. QDCORESHELL-615-AQU: em= 615 nm ; concentration= 4.0 ± 0.2 μM; diameter Ø= 4.5 ± 0.2 nm - Available in 1 mL

CdSe/ZnS Core/Shell Quantum Dots 575 nm modified with Streptavidin-Aqueous are fluorescent nanoparticles (?emission maximum of ~ 575 nm), covalently functionalized with biotin-binding proteins - Available in 50 μL.

p-AminoPhenyl Phosphate is a substrate of Alkaline Phosphatase that generates electrochemically active p-aminophenol as the product after its hydrolysis. Available in 250 mg, 500 mg, 750 mg, and 1000 mg.

Hydroquinone Diphosphate is a substrate of Alkaline Phosphatase that generates electrochemically active hydroquinone as the product after its hydrolysis - Available in 500 mg and 1 gr

Phosphorilated Paracetamol is a substrate of Alkaline Phosphatase that generates electrochemically active Paracetamol as the product after its hydrolysis - Available in 500 mg and 1 gr.

 Solution produced from polyhydroxylated fullerenes (fullerenols) suitable for electrode modification when highly hydroxylated surface is required.