Nasze produkty
Metrohm-Dropsens
DRP-FLWCL
Flow-Cell for screen-printed electrodes
It is a methacrylate (transparent) wall-jet flow-cell for Flow Injection Analysis, with an innovative open-close system (no screws needed) and an easy sensors replacement.
Dimensions: 3.3 x 6.0 x 3.3 cm (Lenght x Width x Height).
DRP-FLWCL8X
Flow-Cell for 8X screen-printed electrodes
It is a methacrylate (transparent) wall-jet flow-cell for Flow Injection Analysis designed for our 8X format Screen-Printed Electrodes. The bottom part of the Flow-Cell is manufactured in aluminium. The open-close system of the cell consists on two screws that facilitate the sealing of the cell and the easy sensors replacement.
Dimensions: 11.8 x 4.7 x 3.5 cm (Lenght x Width x Height).
DRP-FLWCL8X1C
Flow-Cell for 8X screen-printed electrodes 1 Channel
It is a thin layer flow-cell for Flow Injection Analysis designed for our 8X format Screen-Printed Electrodes. The bottom part of the Flow-Cell is manufactured in aluminium and the top part of the Flow-Cell is manufactured in methacrylate (transparent). The open-close system of the cell consists on two screws that facilitate the sealing of the cell and the easy sensors replacement.
Dimensions: 11.8 x 4.7 x 3.5 cm (Lenght x Width x Height).
DRP-HPLCELL
HPLC Cell for Screen-Printed Electrodes
Cell for Screen-Printed Electrodes is specially designed for working in High-Performance Liquid Chromatography systems. HPLCELL is a thin layer cell that allows an easy replacement of the electrochemical cell using Screen-Printed Electrodes and a perfect sealing thanks to its innovative design and internal o-ring.
Dimensions: 11.8 x 4.7 x 3.5 cm (Lenght x Width x Height).
SPECCELL
Disposable well cell for screen-printed electrode
Disposable cell suitable for SPEs with the detection part in the center of the strip. It has a simple adhesive application system and is lightweight for easy handling of the electrodes.
SPECELL4W
Disposable well cell for 4W format screen-printed electrode
Disposable cell suitable for SPEs consisting of 4W format working electrodes that share the auxiliary and reference electrodes.
It has a simple adhesive application system and is lightweight for easy handling of the electrodes.
SPECELL8W
Disposable well cell for 8W format screen-printed electrode
Disposable cell suitable for SPEs consisting of 8W format working electrodes that share the auxiliary and reference electrodes. It has a simple adhesive application system and is lightweight for easy handling of the electrodes.
SPECELL8X
Disposable well cell for 8X format screen-printed electrode
Disposable cell suitable for SPEs consisting of 8X format (each electrochemical cell contains the three electrodes: working, auxiliary and reference).
It has a simple adhesive application system and is lightweight for easy handling of the electrodes.
DRP-CELL
DRP-CELL-PEEK
DRP-CELLHOLDER
Cell for screen-printed electrodes
Cell for batch analysis (5-8 mL) which allows optional stirring and it is recommended for deaerated samples and for standard additions mode. Available in methacrylate (transparent) ref. CELL or in PEEK materials (suitable when working with organic solutions) ref. CELL-PEEK.
Dimensions: 4.0 cm (height) x 2.6 cm (diameter)
CELL-IDE
Cell for interdigitated electrodes
Cell for interdigitated electrodes ideal to perform batch analysis. This model is available in methacrylate (ref. CELL-IDE) and in PEEK (ref. CELL-IDE-PEEK).
DRP-TCELL
Cell for screen-printed electrodes
This methacrylate Cell is designed to perform batch analysis with large volumes of solutio n (5-8 mL), allowing temperature control. It is a cell vessel with thermostatic jacket suitable for working with deaerated samples and useful to carry out standard additions.
Dimensions: 5.8 cm (height) x 4.5 cm (diameter).
Customized Flow-Cells for screen-printed electrodes
DropSens is also able to manufacture tailored flow-cells following customer's specifications, including different designs and materials. We have provided researchers with a number of solutions like a flow-cell with a smaller “O-ring” to enclose working electrode only, a flow-cell associated to an electromagnet, or a cell with a conical well to perform batch analysis.
SPECTROELECTROCHEMICAL CELLS
RAMANCELL
RAMAN cell for screen-printed electrodes (SPEs)
Cell for performing RAMAN Spectroelectrochemistry with screen-printed electrodes in combination with ref. RAMANPROBE. Also, you can work with solid and liquid samples thanks to crucibles.
TLFCLRAMANCELL
RAMAN flow cell for thin layer flow-cell screen-printed electrodes (TLFCL SPEs)
The TLFCLRAMANCELL is suitable to perform RAMAN flow spectroelectrochemical measurements in combination with TLFCL screen-printed electrodes.
TRANSCELL
Cell for transmission experiments with screen-printed electrodes
Cell in Teflon suitable to perform transmission experiments with our transparent Screen-printed electrodes in combination with a collimator lens (ref. CLENS).
Dimensions: 3.3 x 6.0 x 3.3 cm (Lenght x Width x Height).
PTGRID-TRANSCELL
Spectroelectrochemical cell for bulk electrolysis
Quartz cuvette with platinum grid working electrode, platinum counter and Ag/AgCl reference electrodes for performing spectroelectrochemical measurements in bulk. A complete system for transmission analysis of electrochemical reaction taking place in solution.
It is compatible with standard spectrometers and holders.
DRP-CUV
REFLECELL
Cell for reflection experiments with screen-printed electrodes
Cell in Teflon suitable to perform reflection experiments with our Screen-printed electrodes.
Dimensions: 3.3 x 6.0 x 3.3 cm (Lenght x Width x Height).
TLFCL-REFLECELL
Spectroelectrochemical Reflection Flow-Cell for Thin Layer Flow-Cell Screen-Printed Electrodes
In order to allow researchers to perform spectroelectrochemistry studies in a flow system, we have developed a smart solution consisting in the combination of our TLFCL-CIR screen-printed electrodes and a special cell accessory, ref. TLFCL-REFLECELL, which incorporates a convenient hole for perfectly fitting our optical fiber ref. RPROBE-VIS-UV, thus getting an easy set-up for reflection experiments.