Nanomaterialy i odczynniki DS

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NANOMATERIAŁY. ODCZYNNIKI ELEKTROCHEMICZNE

Carbon nanotubes

Wielościenne nanorurki produkowane metodą CVD (chemiczne osadzanie z fazy gazowej). Również funkcjonalizowane grupami -COOH i -NH2. Nadają się do zastosowań mechanicznych i elektrycznych. Nanocząstki złota, nanocząstki palladu, nanocząstki platyny, nanodruty niklu i nanodruty złota wytwarzane przez osadzanie elektrochemiczne w matrycach z tlenku glinu oraz kropki kwantowe.

Różne roztwory: roztwór nanowłókien węglowych, roztwór nanorurek węglowych, roztwór grafenu, roztwór tlenku grafenu, wodny roztwór tlenku grafenu i mezoporowaty roztwór węgla.

Również fosforan p-aminofenylowy, difosforan hydrochinonu oraz fosforylowany paracetamol: elektrochemiczne substraty fosfatazy alkalicznej.

QUANTUM DOTS

DropSens - Quantum DotspdfQDCORE Quantum Dots

Quantum Dots are nanocrystals of inorganic semiconductors that have all three dimensions restricted to the 2 to 8 nm length scale. Core CdSe and core/shell CdSe/ZnS are produced via chemical synthesis at high temperature in organic solvent.


QDCORESHELL

 

DropSens - Quantum Dots modified with StreptavidinQDCORESHELL-575-STR-AQUpdf MSDS pdfMSDS Quantum Dots modified with streptavidin


These fluorescent nanoparticles covalently functionalized with biotin-binding proteins, are an excellent option for the detection of a large amount of biotinylated molecules, in a wide range of experiments, such as electrochemical (bio)assays, optical (bio)assays, western blot protocols, flow cytometry, and more.

  QDCORESHELL-585-AQUQDCORESHELL-615-AQUpdf MSDS pdfMSDS Quantum Dots in aqueous solution


This aqueous soluble fluorescent nanocrystals presents carboxyl groups in the free end which make them very interesting nanoparticles for conjugation procedures through the covalent attachment of amine groups of proteins, amine-modified oligonucleotides, or others.

  

Graphene Quantum Dots in aqueous solution - DropSensGQDpdf MSDS pdfMSDS Graphene Quantum Dots in aqueous solution

Aqueous soluble fluorescent nanoparticles exhibit extraordinary optical and electronic properties. Graphene Quantum Dots are characterized by their chemical inertness and biocompatibility, high fluorescent activity and photostability.

 MESOPOROUS CARBON SOLUTION

 Mesoporous Carbon SolutionMCSOLpdf MSDS pdfMSDS Mesoporous Carbon Solution


Mesoporous Carbon Solution is a homogeneous, black solution with a high purity of mesoporous carbon nanopowder. Carbon nanoparticles have a surface area >200 m2/g and 64 Å of average pore diameter.

CARBON NANOFIBRES SOLUTION

Carbon nanofibres solutionCNFSOLpdf MSDS pdfMSDS Carbon Nanofibres Solution

They are produced via the catalytic carbon vapour deposition process. The manufacturing processes provide a highly graphitized material without amorphous carbon. Nanofibres present in solution have an average diameter of 40-80 nm and an average length varying from 0.5 to 1.5 µm. Most of the nanofibres have helicoidal structure.

CARBON NANOTUBES SOLUTION

Carbon nanotubes solutionCNTSOLpdf MSDS pdfMSDSCarbon Nanotubes Solution

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

Volume: 0,5 ml - 1 ml

GRAPHENE SOLUTION

Graphene solutionGPHSOLpdfMSDS pdfMSDS Graphene Solution

Graphene is a two dimensional sheet of sp2-bonded carbon atoms tightly packed into a hexagonal configuration. Graphene possesses exceptional properties, such as large surface area and high electrical and thermal conductivity, which made it of significant interest in electrochemistry.

GRAPHENE OXIDE SOLUTION

 

Graphene oxide solutionGPHOXSOLpdf MSDS pdfMSDS Graphene Oxide Solution

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.

AQUEOUS GRAPHENE OXIDE SOLUTION

Aqueous Graphene oxide solutionGPHOXSOL-AQUpdf MSDS pdfMSDS Aqueous Graphene Oxide Solution

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.

MULTI-WALLED CARBON NANOTUBES

Multi-walled carbon nanotubesMWCNT
MWCNTNH2
MWCNTCOOHpdf MSDS pdfMSDS Multi-Walled Carbon Nanotubes

Multiwalled carbon nanotubes grown by CVD process.

They are purified to more than 95% C. Approximate dimensions are d: 10 nm, L: 1-2 µm. Optimum for electronic, mechanical or analytic applications.

DropSens offers non-functionalised nanotubes (ref. MWCNT), functionalised with –NH2 groups (ref. MWCNTNH2; approx. 0,5% functionalisation) and functionalised with –COOH groups (ref. MWCNTCOOH; approx. 5% functionalisation) to modify their surface chemistry characteristics and to ease their dispersion in solvents.

GRAPHENE OXIDE

Graphene oxideGPHOXpdfMSDS pdfMSDS Graphene oxide

Graphene oxide has been 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. Different applications are solar energy, conductive films, nonvolatil memory technology…

GOLD NANOPARTICLES

Gold Nanoparticles - DropSens AUNP-COL
AUNP-PURpdfMSDS pdfMSDS Gold Nanoparticles

Gold 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.

PALLADIUM NANOPARTICLES

Palladium Nanoparticles - DropSensPDNP-COL
PDNP-PURpdfMSDS pdfMSDS Palladium Nanoparticles

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.

PLATINUM NANOPARTICLES

Platinum Nanoparticles - DropSensPTNP-COL
PTNP-PURpdfMSDS pdfMSDS Platinum Nanoparticles

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.

RHODIUM NANOPARTICLES

Platinum Nanoparticles - DropSensRHNP-COLpdfMSDS pdfMSDS Rhodium Nanoparticles

Rhodium Nanoparticles are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the presence of a stabilizer agent. This stabilized dispersion in citrate has a narrow size distribution and it is ready to be used.

BISMUTH NANOPARTICLES

Platinum Nanoparticles - DropSensBINP-PURpdfMSDS pdfMSDS Bismuth Nanoparticles

Bismuth Nanoparticles are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the presence of a stabilizer agent. They are later purified and concentrated removing any stabilizing agent and dispersed in acetone.

TIN NANOPARTICLES PURIFIED

Metrohm DropSens - Tin nanoparticles purified in acetoneSNNP-PURpdfMSDS pdfMSDS Tin nanoparticles purified

Tin Nanoparticles are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the presence of a stabilizer agent. They are later purified and concentrated removing any stabilizing agent and dispersed in acetone.

 

COPPER NANOPARTICLES PURIFIED

Metrohm DropSens - Copper nanoparticles purified in acetoneCUNP-PURpdfMSDS pdfMSDS Copper nanoparticles purified

Cupper Nanoparticles are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the presence of a stabilizer agent. They are later purified and concentrated removing any stabilizing agent and dispersed in acetone.

ANTIMONY NANOPARTICLES PURIFIED

Metrohm DropSens - Antimony nanoparticles purifiedSBNP-PURpdfMSDS pdfMSDS Antimony nanoparticles purified

Antimony Nanoparticles are produced through colloidal synthesis methods, are produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the presence of a stabilizer agent. They are later purified and concentrated removing any stabilizing agent and dispersed in acetone.

IRIDIUM NANOPARTICLES

Metrohm DropSens - Iridium nanoparticlesIRNP-COLpdfMSDS pdfMSDS Iridium nanoparticles purifi

ed

Iridium Nanoparticlesare produced through colloidal synthesis methods, reducing a metal salt precursor in a solution and with the presence of a stabilizer agent. This stabilized dispersion in citrate has a narrow size distribution and it is ready to be used.

NICKEL NANOWIRES

Nickel NanowiresNINWpdfMSDS pdfMSDS Nickel Nanowires

Nickel Nanowires are produced via the electrochemical deposition in an alumina template. After dissolving the alumina, purified metal nanowires are obtained. Our magnetic Nickel Nanowires have an average diameter of 150-250 nm and an average length that can be tuned from 6 to 8 µm.

STREPTAVIDIN COATED NICKEL NANOWIRES

Nanohilos de NíquelNINW-STRpdfMSDS pdfMSDS Streptavidin-modified Nickel Nanowires

Streptavidin-modified nickel nanowires (NiNW-STR) are an excellent option for the immobilization of a large amount of biotinylated molecules. Due to the extraordinary ferromagnetic properties of nickel, DRP-NINW-STR is a perfect candidate to be use in magnet-based (bio)assays.

GOLD NANOWIRES

Gold NanowiresAUNWpdfMSDS pdfMSDS Gold Nanowires

Gold Nanowires are produced via the electrochemical deposition in an alumina template. After dissolving the alumina, purified metal nanowires are obtained. Our Gold Nanowires have an average diameter of 150-250 nm and an average length varying in two ranges: 2- 6 µm or 12-18 µm.

PALLADIUM NANOWIRES

Palladium NanowiresPDNWpdfMSDS pdfMSDS Palladium Nanowires

Palladium Nanowires are produced via the electrochemical deposition on an alumina template. After dissolving the alumina, purified metal nanowires are obtained. Our Palladium Nanowires have an average diameter of 150-250 nm and an average length of 10-16 µm.

PLATINUM NANOWIRES

Platinum NanowiresPTNWpdfMSDS pdfMSDS Platinum Nanowires

Platinum Nanowires are produced via the electrochemical deposition on an alumina template. After dissolving the alumina, purified metal nanowires are obtained. Our Platinum Nanowires have an average diameter of 150-250 nm and an average length of 10-16 µm.

SILVER NANOWIRES

Silver NanowiresAGNWpdfMSDS pdfMSDS Silver Nanowires

Silver Nanowires are produced via the electrochemical deposition in an alumina template. After dissolving the alumina, purified metal nanowires are obtained. 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.

PLATINUM-GOLD-NICKEL NANOWIRES

Nanohilos de PlataPTAUNINWpdfMSDS pdfMSDS Platinum-Gold-Nickel Nanowires

Platinum-gold-nickel (Pt-Au-Ni) Nanowires are   produced via the electrochemical deposition   on an alumina template. After dissolving the alumina, purified three-metal nanowires are obtained. 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).

p-AMINOPHENYL PHOSPHATE

p-AminoPhenyl PhosphatePAPPpdfMSDS pdfMSDS p-AminoPhenyl Phosphate

This electrochemical substrate of Alkaline Phosphatase (AP) generates electrochemically active -aminophenol as the product after its hydrolysis. Voltammetric and amperometric measurements can be easily carried out for the quantification of -aminophenol in affinity assays using the -APP/AP detection system.

HYDROQUINONE DIPHOSPHATE

Hydroquinone Diphosphate HQDPpdfMSDS pdfMSDS Hydroquinone Diphosphate

Hydroquinone diphosphate is intended for its use as electrochemical substrate of Alkaline Phosphatase (AP). This reagent generates electrochemically active hydroquinone as the product after its hydrolysis. Voltammetric and amperometric measurements can be easily carried out for the quantification of hydroquinone in affinity assays using the HQDP/AP detection system.

PHOSPHORYLATED PARACETAMOL

Phosphorylated ParacetamolPPARpdfMSDS pdfMSDS Phosphorylated Paracetamol

Phosphorylated Paracetamol is intended for its use as electrochemical substrate of Alkaline Phosphatase (AP). This reagent generates electrochemically active Paracetamol as the product after its hydrolysis. Voltammetric and amperometric measurements can be easily carried out for the quantification of Paracetamol in affinity assays using the PPAR/AP detection system.

 

 

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