Standard Electrochemical Cells
High-quality standard electrochemical cell
Save with bulk discounts and our excellent value electrochemical cell kit
Part of our growing electrochemistry range, our glass three electrode electrochemical cells have been designed for cyclic voltammetry, electrolysis and other electrochemical studies. Our 50 ml cells can be bought individually, or save with our multipacks and incredible value electrochemical cell kit (also avaliable part of our potentiostat bundle for an even bigger discount).
The electrochemical cell kit offers unbeatable value. Included is the electrochemical cell itself, plus three electrodes: a platinum disc working electrode, a platinum wire counter electrode, and either an aqueous AgCl reference electrode or a non-aqueous Ag/Ag+ reference electrode. Together with the Ossila Potentiostat, it offers an easy and affordable route for performing cyclic voltammetry and other electrochemical studies in either solution or film. Qualifying orders ship free, and all orders are backed by the Ossila Guarantee.
Standard Electrochemical Cell
High quality 50 ml glass electrochemical cell for a range of applications
Features a screw-fit PTFE lid, three electrode holes, and two gas holes to allow for degassing
Electrochemical Cell Multipacks
Save up to 5% when you buy a multipack of 5 electrochemical cells or up to 10% when you buy a pack of 10
Perfect for teaching labs or for measuring different materials in succession
Cell Kit with Electrodes
Includes an electrochemical cell, platinum disc working electrode, platinum wire counter electrode, and either a non-aqueous Ag/Ag+ reference electrode or an aqueous Ag/AgCl reference electrode.
Our best value bundle
Potentiostat with Cell and Electrodes
- Easy to Use
- Worldwide Shipping
Buy Online £1,900.00
The electrochemical cell is where the chemical reaction happens by passing electricity through the electrodes. With the potentiostat and selected three electrodes, cyclic voltammetry can be carried out to obtain both oxidation and reduction potentials of the semiconducting materials, i.e. OLED small molecules or OPV polymers. Highest occupied molecular orbital (HOMO) and lowest unoccupied molecular orbital (LUMO) energy levels can thus be calculated from the measurements.
This is the 'standard' electrochemical cell. H-type cells are also available, as are cells with a luggin capillary. If temperature control is required for your application, we also stock 100 ml electrochemical cells with a built-in water bath.
All dimensions are in millimetres.
Pricing and Options
Our standard electrochemical cells can be purchased individually, in packs of five or ten, or as part of our electrochemical cell kit. This includes the electrochemical cell itself, plus a working electrode, reference electrode, and counter electrode. For additional savings, the cell kit can also be bought together with an Ossila Potentiostat.
|Product Name||Product Code||Price|
|Standard electrochemical cell||C2012A1||£175.00|
|Standard electrochemical cell (pack of 5)||C2012A1-5||£850.00|
|Standard electrochemical cell (pack of 10)||C2012A1-10||£1600.00|
|Standard electrochemical cell kit||C2016A1||£500.00|
|Standard electrochemical cell kit when purchased with a potentiostat||C2016A1||£360.00*|
*Price of potentiostat not included.
Our full range of electrochemistry equipment and supplies includes luggin capillary electrochemical cells, H-type electrochemical cells, photoelectrochemical cells, and working, reference, and counter electrodes.
Electrochemical Cells and Electrodes
- Large range
- High quality
- Low prices
Prices from £95.00
To the best of our knowledge the information provided here is accurate. However, Ossila assume no liability for the accuracy of this page. The values provided are typical at the time of manufacture and may vary over time and from batch to batch. All products are for laboratory and research and development use only, and may not be used for any other purpose including health care, military, pharmaceuticals, cosmetics, food, or commercial applications.