Electrochemistry For Teaching And Research
Academic Discount
A 10% discount is offered to all accredited academic institutions (US & Canada only) on the following epsilon electrochemistry (EC) and liquid chromatography (LC) systems (the configuration of the system is defined by the options selected, as represented by x in the part #).
- e2P-xxxxxx (EC)
- e5P-xxxxxx (LC)
EC epsilon
The epsilon is a revolutionary new family of potentiostat/galvanostats that has been designed to allow the user great flexibility in choosing their particular instrument. The most basic epsilon instrument can be used for cyclic voltammetry, bulk electrolysis, amperometry, chronoamperometry, and chronopotentiometry, making it ideal for the teaching lab or for materials characterization (e.g., characterization of transition metal complexes by cyclic voltammetry and controlled potential electrolysis, or of biosensors by cyclic voltammetry and constant potential amperometry). Pulse, square wave, and stripping techniques can be added by a software upgrade, and a second channel can be added by a hardware upgrade.
Accessories for the EC epsilon
C-3 Cell Stand
The BASi C-3 Cell Stand is a general-purpose accessory for electroanalytical experiments.
CGME Controlled Growth Mercury Electrode
The BASi Controlled Growth Mercury Electrode (CGME) is ideal for polarography experiments and other electroanalytical experiments requiring a mercury drop electrode.
RDE-2 Rotating Disk Electrode
The BASi RDE-2 is a rotator system for use in constant-RPM and hydrodynamic modulation rotating disk electrochemistry.
DigiSim® Simulation Software for Cyclic Voltammetry
DigiSim can be used to calculate theoretical cyclic voltammograms for a wide range of electrochemical mechanisms, including multiple electron transfers and coupled chemical reactions.
BASi® Electrochemistry Literature
BASi has published a large number of application notes (Capsules) and Current Separations articles that discuss various aspects of electroanalytical chemistry, including cyclic voltammetry of transition metal complexes and neurotransmitters, protein electrochemistry, electrosynthesis, and trace analysis using stripping voltammetry.
