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110STR |
X1110STR |
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INSTRUCTIONS |
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Screen-Printed Carbon Electrodes (SPCEs) modified with Streptavidin
DropSens launches Screen-Printed Carbon Electrodes (SPCEs) modified with Streptavidin. Streptavidin modified SPCEs provide a stable high affinity surface for a large amount of biotinylated molecules. These SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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8X110STR |
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8X Streptavidin modified Screen-printed Carbon Electrodes
Screen-printed electrochemical array formed by eight 3-electrode electrochemical cells with high streptavidin modified carbon-based working electrodes. Specially designed for the development of multiple simultaneous analysis. The system can be customised with other working electrode materials such as carbon modified with other nanomaterials.
Dimensions: 3.4 x 7.9 x 0.1 cm (Length x Width x Height).
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96X110STR |
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INSTRUCTIONS |
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Streptavidin modified 96X Screen-printed Carbon Electrodes
DropSens launches Electrochemical ELISA plates modified with Streptavidin. This is a new screen-printed electrochemical array formed by 96 three-electrode electrochemical cells with carbon-based working electrodes modified with Streptavidin that provides a stable high affinity surface for a large amount of biotinylated molecules. This electrochemical array is fixed in the bottom of a standard microtiter ELISA plate with 96 wells.
Dimensions: 7.4 x 11 x 0.5 cm (Lenght x Width x Height).
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110XTR |
X1110XTR |
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INSTRUCTIONS |
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Screen-Printed Carbon Electrodes (SPCEs) modified with ExtrAvidin
DroSens launches Screen-Printed Carbon Electrodes (SPCEs) modified with ExtrAvidin. ExtrAvidin combines Avidin high specificity with low non-specific adsorption of Streptavidin. These SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height).
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96X110XTR |
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INSTRUCTIONS |
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ExtrAvidin modified 96X Screen-printed Carbon Electrodes
DropSens launches Electrochemical ELISA plates modified with ExtrAvidin. ExtrAvidin combines Avidin high specificity with low non-specific adsorption of Streptavidin. This electrochemical array is fixed in the bottom of a standard microtiter ELISA plate with 96 wells.
Dimensions: 7.4 x 11 x 0.5 cm (Lenght x Width x Height).
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110PANI |
X1110PANI |
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Screen-Printed Carbon Electrodes (SPCEs) modified with Polyaniline
DroSens launches Screen-Printed Carbon Electrodes (SPCEs) modified with Polyaniline. These SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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110SFT |
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Surface treated screen-printed carbon electrode
110SFT has a carbon working electrode with a surface treatment that allows better aqueous wetting and homogenization of the working surface. This modification makes these electrodes ideal for use as substrates when a homogeneous surface is required, for example, in catalytic process research or impedance measurements, among other applications.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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110PDP |
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Palladium particles modified SPEs
Palladium particles modified SPEs are ideal for the determination of hydrogen peroxide at a low detection potentials. These electrodes are recommended for the development of enzymatic biosensors based on oxidases.
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110PHEN |
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Screen-printed Carbon Electrodes modified with phenanthroline
SPCEs modified with 1,10-phenanthroline-5,6-dione are ideal for detecting NADH evolution in enzymatic dehydrogenase based sensors.
Dimensions: 3.4 x 1.0 x 0.05 CM (Length x Width x Height).
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110AUP |
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Gold particles modified SPEs
Gold particles modified SPEs are intended to make easier the latter immobilization of biomolecules such as oligonucleotides, antibodies, proteins…etc.
Available in individual, dual, 4W, 8W and 96X format.
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110PTP |
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Platinum particles modified SPEs
Platinum particles modified SPEs are ideal for the determination of hydrogen peroxide at a low detection potentials. These electrodes are recommended for the development of enzymatic biosensors based on oxidases.
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110RHP |
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Screen-printed Carbon Electrodes modified with Rhodium Particles
Rhodium particles modified SPCEs can be used for different electrocatalytical applications such as monitorization of hydrogen peroxide, hydrogen evolution, oxygen reduction reaction, formic acid or methanol oxidation reactions, halogens or reduction of inorganic nitrogen, as nitrate or nitric oxide.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height). |
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110IRP |
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Screen-printed Carbon Electrodes modified with Iridium Particles
Iridium particles modified SPCEs can be used for different electrocatalytical applications such as monitorization of hydrogen peroxide, oxygen evolution reaction, triglycerides detection or proton sensing in pH devices.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height). |
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110HION |
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Screen-Printed Carbon Electrodes modified with hydrogen ionophore
The 110HION SPCE have been designed for detecting protons making possible pH monitoring.
Dimensions: 3.4 x 1.0 x 0.05 CM (Length x Width x Height).
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110KION |
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Screen-Printed Carbon Electrodes modified with potassium ionophore
The 110KION SPCE have been designed for the measurement of potassium ion by open circuit potentiometry (OCP).
Dimensions: 3.4 x 1.0 x 0.05 CM (Length x Width x Height).
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110NAION |
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Screen-Printed Carbon Electrodes modified with sodium ionophore
The 110NAION SPCE have been designed for the measurement of sodium ion by open circuit potentiometry (OCP).
Dimensions: 3.4 x 1.0 x 0.05 CM (Length x Width x Height).
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110PLYS |
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Screen-Printed Carbon Electrodes modified with Poly-L-lysine (PLYS)
The 110PLYS SPCE devices have been designed for cell culture applications and protein anchoring, as they provide a positively charged three-dimensional surface.
Dimensions: 3.4 x 1.0 x 0.05 CM (Length x Width x Height).
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110BI |
X1110BI |
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Bismuth Oxide Modified Screen-printed Carbon Electrodes
These disposable carbon electrodes modified with bismuth (III) oxide are ideal for the environmental friendly determination of heavy metals at ppb levels.
Useful for research labs to avoid mercury based electrodes.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height) |
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110NI |
X1110NI |
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Nickel Oxide Modified Screen-printed Carbon Electrodes
These disposable carbon electrodes modified with Nickel (II) Oxide (NiO) are designed for the electrocatalytic oxidation of small organic molecules such as carbohydrates and alcohols.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height) |
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110GPH |
X1110GPH |
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Graphene Modified Screen-Printed Electrodes
DropSens launches Screen-Printed Carbon Electrodes (SPCEs) modified with Graphene as a carbon based nanomaterial.
Graphene SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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110GPHOX |
X1110GPHOX |
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Graphene Oxide Modified Screen-Printed Electrodes
Screen-Printed Carbon Electrodes (SPCEs) modified with Graphene Oxide as a carbon based nanomaterial. Graphene Oxide SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height) |
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110RGPHOX |
X1110RGPHOX |
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Reduced Graphene Oxide Modified Screen-Printed Electrodes
Screen-Printed Carbon Electrodes (SPCEs) modified with Reduced Graphene Oxide as a carbon based nanomaterial. Reduced Graphene Oxide SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height) |
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110CNT |
X1110CNT |
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110SWCNT |
X1110SWCNT |
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Multi- and Single- Walled Carbon Nanotubes Modified Screen-printed Electrodes
DropSens launches Screen-Printed Carbon Electrodes modified with Carboxyl functionalised Multi- and Single-Walled Carbon Nanotubes. This innovative product is mainly focused on the development of electrochemical biosensors with an enhanced active area. The new carbon nanotubes modified electrodes show better electron-transfer than conventional screen-printed carbon electrodes, and retain the electrocatalytic properties of carbon nanotubes. They are stable electrodes that can be used in FIA systems.
Working electrode (4 mm diameter) is made of Carbon Nanotubes (Multi-Walled in 110CNT and Single-Walled in 110SWCNT), counter electrode is made of carbon, whereas reference electrode and electric contacts are made of silver.
Ideal for working with 50 µL volume.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height). |
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96X110CNT |
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Carboxyl functionalised Multi-Walled Carbon Nanotubes modified 96X Screen-printed Carbon electrode
DropSens launches Electrochemical ELISA plates modified with Carboxyl functionalised Multi-Walled Carbon Nanotubes. This is a new screen-printed electrochemical array formed by 96 three-electrode electrochemical cells with carbon-based working electrodes modified with Multi-Walled Carbon nanotubes mainly focused on the development of electrochemical biosensors with an enhanced active area. The new carbon nanotubes modified electrodes show better electron-transfer than conventional screen-printed carbon electrodes, and retain the electrocatalytic properties of carbon nanotubes.
This electrochemical array is fixed in the bottom of a standard microtiter ELISA plate with 96 wells.
Dimensions: 7.4 x 11 x 0.5 cm (Lenght x Width x Height)
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96X110SWCNT |
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Carboxyl functionalised Single-Walled Carbon Nanotubes modified 96X Screen-printed Carbon electrode
DropSens launches Electrochemical ELISA plates modified with Carboxyl functionalised Single-Walled Carbon Nanotubes. This is a new screen-printed electrochemical array formed by 96 three-electrode electrochemical cells with carbon-based working electrodes modified with Single-Walled Carbon nanotubes mainly focused on the development of electrochemical biosensors with an enhanced active area.
The new carbon nanotubes modified electrodes show better electron-transfer than conventional screen-printed carbon electrodes, and retain the electrocatalytic properties of carbon nanotubes.
This electrochemical array is fixed in the bottom of a standard microtiter ELISA plate with 96 wells.
Dimensions: 7.4 x 11 x 0.5 cm (Lenght x Width x Height)
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110CNF |
X1110CNF |
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Carbon Nanofibres Modified Screen-printed Electrodes
DropSens launches Screen-Printed Carbon Electrodes (SPCEs) modified with Graphitized Carbon Nanofibres (CNFs).
CNFs SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height) |
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110MC |
X1110MC |
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Mesoporous Carbon Modified Screen-printed Carbon Electrodes
DropSens launches Screen-Printed Carbon Electrodes (SPCEs) modified with Mesoporous Carbon.
These SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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110MNPH |
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Manganese(II) phthalocyanine modified Carbon SPEs
Manganese(II) phthalocyanine modified SPEs are ideal for the determination of hydrogen peroxide at a low detection potentials. These electrodes are recommended for the development of enzymatic biosensors based on oxidases.
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110OMC |
X1110OMC |
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Ordered Mesoporous Carbon Modified Screen-printed Carbon Electrodes
DropSens launches Screen-Printed Carbon Electrodes (SPCEs) modified with Ordered Mesoporous Carbon.
These SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height) |
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110FERRI |
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Potassium ferricyanide modified SPCEs
This screen-printed electrode modified with potassium ferricyanide is suitable for developing second-generation enzymatic based sensors.
Dimensions: 3.4 x 1.0 x 0.05 cm (length x width x height) |
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110GNP |
X1110GNP |
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Gold NanoParticles Modified Screen-printed Carbon Electrodes
GNP-Screen-printed carbon electrodes are designed for the development of (bio) sensors with enhanced electronic transfer properties.
Working electrode (4mm) is made of GNP-Carbon, Counter electrode is made of carbon; reference electrode and electric contacts are made of silver.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height) |
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96X110GNP |
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Gold Nanoparticles modified 96X Screen-printed Carbon electrode
DropSens launches Electrochemical ELISA plates modified with Gold Nanoparticles. This is a new screen-printed electrochemical array formed by 96 three-electrode electrochemical cells with carbon-based working electrodes modified with Gold Nanoparticles mainly focused on the development of electrochemical biosensors with an enhanced active area.
This electrochemical array is fixed in the bottom of a standard microtiter ELISA plate with 96 wells.
Dimensions: 7.4 x 11 x 0.5 cm (Lenght x Width x Height)
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Screen-Printed Carbon Electrodes (SPCEs) modified with Gold Nanoparticles and Streptavidin
DropSens launches Screen-Printed Carbon Electrodes (SPCEs) modified with Gold Nanoparticles and Streptavidin. Streptavidin modified SPCE-GNPs provide a stable high affinity surface for immobilizing a large amount of biotinylated molecules. They are designed as a versatile platform for the development of several (bio)sensors.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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96X110GNP-STR |
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Gold Nanoparticles and Streptavidin modified 96X Screen-printed Carbon Electrodes
DropSens launches Electrochemical ELISA plates modified with Gold Nanoparticles and Streptavidin. This is a new screen-printed electrochemical array formed by 96 three-electrode electrochemical cells with carbon-based working electrodes modified with GNP and Streptavidin that provides a stable high affinity surface for a large amount of biotinylated molecules. This electrochemical array is fixed in the bottom of a standard microtiter ELISA plate with 96 wells.
Dimensions: 7.4 x 11 x 0.5 cm (Lenght x Width x Height).
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110CNT-GNP |
X1110CNT-GNP |
110CNF-GNP |
X1110CNF-GNP |
110GPH-GNP |
X1110GPH-GNP |
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Carbon Nanotubes - Gold Nanoparticles modified Screen-printed Carbon Electrodes
Carbon Nanofibres - Gold Nanoparticles modified Screen-printed Carbon Electrodes
Graphene - Gold Nanoparticles modified Screen-printed Carbon Electrodes
DropSens
launches a line of nanohybrid Screen-Printed Carbon Electrodes (SPCEs) combining different Carbon Nanomaterials with Gold Nanoparticles.
These SPCEs are designed for the development of (bio) sensors with an enhanced electrochemical active area.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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96X110CNT-GNP |
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Carbon Nanotubes/Gold Nanoparticles modified 96X Screen-printed Carbon electrode
DropSens launches Electrochemical ELISA plates modified with Carbon Nanotubes/Gold Nanoparticles. This is a new screen-printed electrochemical array formed by 96 three-electrode electrochemical cells with carbon-based working electrodes modified with Carbon Nanotubes/Gold Nanoparticles mainly focused on the development of electrochemical biosensors with an enhanced active area.
This electrochemical array is fixed in the bottom of a standard microtiter ELISA plate with 96 wells.
Dimensions: 7.4 x 11 x 0.5 cm (Lenght x Width x Height)
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110QD |
X1110QD |
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Core quantum dots CdSe modified Screen-Printed Carbon Electrode
These disposable Screen-Printed Carbon Electrodes (SPCEs) are modified with Core quantum dots CdSe.
These Screen-printed carbon electrodes are designed for the development of sensors with a different electrochemical active area.
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110CSQD |
X1110CSQD |
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Core-shell quantum dots ZnS/CdSe modified Screen-Printed Carbon Electrode
Disposable Screen-Printed Carbon Electrodes (SPCEs) modified with core-shell quantum dots ZnS/CdSe.
These Screen-printed carbon electrodes are designed for the development of sensors with a different electrochemical active area.
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110CUPH |
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Copper(II) phthalocyanine modified Carbon SPEs
Copper(II) phthalocyanine modified Carbon SPEs were designed for gas detection among other research applications.
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110FEPH |
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Iron(II) phthalocyanine modified Carbon SPEs
Iron(II) phthalocyanine modified SPEs are ideal for the determination of hydrogen peroxide at a low detection potentials. These electrodes are recommended for the development of enzymatic biosensors based on oxidases.
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110AGNP |
X1110AGNP |
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Silver NanoParticles Modified Screen-printed Carbon Electrodes
AgNP-Screen-printed carbon electrodes are designed for the development of (bio) sensors with enhanced electronic transfer properties.
Working electrode (4mm) is made of AgNP-Carbon, Counter electrode is made of carbon; reference electrode and electric contacts are made of silver.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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110ALI |
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Carbon Electrodes modified with Alizarin (ALI)
SPCE devices have been designed to detect protons making pH monitoring possible, since the peak potential of the voltammetric oxidation can be easily correlated with the pH of the solution.
Dimensions: 3.4 x 1.0 x 0.05 CM (Length x Width x Height).
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110AQ |
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Screen-printed Carbon Electrodes modified with anthraquinone
SPCEs modified with anthraquinone-2-carboxylic acid are designed for pH monitoring using differential pulse voltammetry as a detection technique.
Dimensions: 3.4 x 1.0 x 0.05 CM (Length x Width x Height).
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410 |
X4410 |
4W410 |
8W410 |
96X410 |
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Screen-printed Co-Phthalocyanine / Carbon Electrode
The electrodes include Co-Phthalocyanine as electrochemical mediator in the working electrode and are ideal for the determination of hydrogen peroxide at a low detection potential. These electrodes are recommended for the development of enzymatic biosensors based on oxidases. Available in individual, dual, 4W, 8W and 96X format. |
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610 |
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Screen-printed Meldola’s Blue / Carbon Electrode
The electrodes include Meldola’s Blue as electrochemical mediator in the working electrode and are ideal for the determination of NADH at a low detection potential. These electrodes are recommended for the development of enzymatic biosensors based on dehydrogenases.
Working electrode (4 mm) is made of Carbon/Meldola’s Blue, counter electrode is made of carbon.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height). |
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710 |
X7710 |
4W710 |
8W710 |
96X710 |
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Screen-printed Prussian Blue / Carbon Electrode
The electrode includes Prussian Blue as electrochemical mediator in the working electrode and is ideal for the determination of hydrogen peroxide at a low detection potential. These electrodes are recommended for the development of enzymatic biosensors based on oxidases. Available in individual, dual, 4W, 8W and 96X format. |
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F10 |
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Screen-printed Ferrocyanide / Carbon Electrodes
Suitable for the determination of hydrogen peroxide at a low detection potential. These electrodes are recommended for the development of enzymatic biosensors based on oxidases, for working with microvolumes and for decentralized assays.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height). |
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MEDIATORSPES |
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Screen-printed Mediator/Carbon Electrodes (MIX)
Mix of screen-printed carbon electrodes modified with mediators that allow the detection of H2O2 (refs. 410, 710, F10) or NADH (ref. 610) at a low potential. They are suitable for develop biosensors based on oxidases or dehydrogenases. |
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LACT10 |
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Screen-printed Ferrocyanide / Carbon Electrode / L-Lactate Oxidase
Suitable for the determination of L(+)-Lactate in liquid samples. These lactate sensors are recommended for working with microvolumes (50 µl) and for decentralized or 'in situ' assays.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height).
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GLU10 |
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Screen-printed Ferrocyanide / Carbon Electrode / Glucose Oxidase
Suitable for the determination of Glucose in liquid samples. These glucose sensors are recommended for working with microvolumes (50 µl) and for decentralized or 'in situ'assays.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height).
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GLU10HC |
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Screen-printed Carbon/Ferricyanide/Glucose Oxidase electrode
Suitable for the determination of high concentrations of glucose in liquid samples. These glucose sensors are recommended for working with microvolumes (50 µl) and for decentralized or 'in situ' assays.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height).
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110PPYR |
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Screen-printed carbon electrodes modified with PolyPyrrol
Screen-Printed Carbon elecrodes modified by electropolymerization of pyrrol. These electrodes show suitable properties for developing (bio)sensors in many different applications. They are suitable for working with low volume of sample (50 µL) and ‘in-situ’ analysis.
Dimensions: 3.4 x 1.0 x 0.05 cm (Length x Width x Height)
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UA10 |
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Screen-printed electrodes for uric acid detection
Suitable for detection of uric acid diluted in buffer solution is possible with these ferrocyanide electrodes modify with uricase. These sensors are recommended for working with low volume of sample (50 µL) and ‘in situ’ Assays.
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