BASi Inc USA - Bi potentiostat & Accessories
Bio Analytical Systems Inc. USA.​

C3 Voltammetry Cell Stand
C3 Voltammetry Cell Stand
RDE Cell Stand Rotating Disc Electrode
Controlled Growth Mercury Electrode Cell Stand

Working Electrodes

Manufactured in a solvent-resistant PCTFE plastic body 7.5 cm length x 6.35 mm OD which is embedded with highly polished disks of various electrode materials

  • Glassy Carbon Electrode (GC) – 3.0 mm diameter
  • Platinum Electrode (Pt) – 1.6 mm / 3.0 mm diameter
  • Gold Electrode (Au) – 1.6 mm / 3.0 mm diameter
  • Carbon Paste Electrode (CPE) – 3.0 mm diameter
  • Copper Electrode (Cu) – 3.0 mm diameter
  • Nickel Electrode (Ni) – 3.0 mm diameter
  • Palladium Electrode (Pd) – 3.0 mm diameter
  • Silver Electrode (Ag) – 1.6 mm / 3.0 mm diameter
  • Carbon Foam with Graphite Rod
  • Edge Plane Pyrolytic Graphite – 3.0 mm diameter

FOR RDE :

  • Glassy Carbon Electrode (GC) – 3.0 mm
  • Platinum Electrode (Pt) – 3.0 mm diameter
  • Gold Electrode (Au) – 3.0 mm diameter
  • Blank RDE Tip – 3.0 mm diameter

For Flow Cells

  • Dual 3mm Glassy carbon electrode
  • Dual 3mm Gold electrode
  • Dual 3mm Silver electrode
  • Dual 3mm Platinum electrode
  • Dual 3mm Carbon paste electrode
  • Single 3mm Glassy carbon electrode
  • Single 3mm Silver electrode
  • Single 3mm Gold electrode
  • Single 3mm Platinum electrode

Reference Electrode

  • Ag/AgCl (3M NaCl) Reference Electrode with Flexible Connector
  • Ag/AgCl (3M KCl) Reference Electrode with Flexible Connector
  • Reference Electrode for Electrocemical Flow Cell
  • Calomel Reference Electrode
  • Chloride Free Reference Electrode
  • Alkaline Reference Electrode
  • Copper/Copper Sulfate Reference Electrode
  • Non-Aqueous Silver/Silver Ion (Ag/Ag+) Reference Electrode Kit
  • Double-Junction Reference Electrode Chamber
  • Porous CoralPor™ Tips, 1/8″ long (5/pkg) with 1/2″ lengths of Teflon heat shrink
  • Storage vial for Ag/AgCl reference electrodes (Aqueous only)
  • 3M Sodium Chloride Storage/Refill Solution
  • 3M Potassium Chloride Storage/Refill Solution
  • Saturated Copper Sulfate Storage/Refill Solution
Bulk Electrolysis Cell
Spectro Electrochemical Cell
Flow Cells for ECD
Cell vials

BASi Applications Capsules cover a variety of topics related to electroanalytical chemistry, liquid chromatography, bioanalysis, and in vivo sampling. The Capsules may demonstrate the feasibility of a particular assay, point out critical steps in sample preparation, or perhaps elaborate on technique. They are not intended to be complete, GLP-validated assays with many replicates over multiple days by independent operators. Instead, they were developed to provide useful guidelines which can be developed further according to the requirements of the end user.

To gain access to the list of available Capsules, simply complete the form below. Once you have access, please note that not all BASi Applications Capsules are available online. Only those listed under each category are available for download. If you would like to request others, please send your request to BASi.

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Current Separations Archive

For many years, Current Separations has been the journal of the research laboratories of BASi®, covering a wide range of topics such as in vivo sampling, microdialysis, liquid chromatography, electrochemistry and liquid chromatography/electrochemistry. The journal ceased publication in 2007, but hundreds of articles have been archived electronically for your reference.

Cyclic Voltammetry

Cyclic voltammetry is the electrochemical equivalent of spectroscopy. It is the single most powerful tool for examining the electrochemical properties of a chemical substance or material. Beginners have difficulty with cyclic voltammetry because it provides so much information in a format unusual to most chemists. Both thermodynamic and kinetic information are available in a single experiment

Laboratory Techniques In Electroanalytical Chemistry

Edited by Peter T. Kissinger and William R. Heineman

This practical, intuitive approach to electroanalytical chemistry presents both fundamental concepts and experimental techniques without confusing technical jargon or needlessly extensive mathematics. It is a valuable reference for chemists in a variety of fields and an important textbook for graduate or upper-level undergraduate students enrolled in instrumental analysis or analytical chemistry courses.

Applications list:


1. Cyclic Voltammetry of Tetrathiafulvalene

2. Adsorption of Reduced Glutathione on a Mercury Surface

3. Determination of Electrode Area with Chronocoulometry

4. Mechanistic Study of Acetaminophen Oxidation U

5. Mechanistic Study of Acetaminophen Oxidation

6. Electrochemical Conversion of [FeIr5(CO)16]- to [FeIr5(CO)15]3-

7. Potentiostatic Measurements of a Tc(III)/Tc(II) Couple

8. Cis-Trans Isomerization of Ru(MeOCS2)2(PPh3)2

9. Two Electron Reduction of [CpCo(NO)]2

10. Reductive Dimerization of Cp*W(NO)I2

11. Calculation of the Standard Heterogeneous Charge Transfer Rate Constant (ks) for Dimeric Iron Fulvalene Complexes Using Cyclic Voltammetry

12. Investigation of E-Z Isomerization of Iron Alkyne Complexes Using Semi-Derivative Voltammetry

13. Investigation of the Metal-Initiated Oligomerization of Alkynes

14. Determination of Ciprofloxacin in Tablets

15. Digital Simulation of Cyclic Voltammetry: Two-Electron Reduction of [(h6-C6Me6)2Ru]2+

16. Characterization of (h3-C3H5)Mo(CO)2(NCMe)2Cl Compounds using Cyclic Voltammetry

17. Detection of Dacarbazine and Its Major Metabolite Using Differential Pulse Voltammetry

18. Investigation of the Reaction Between Cytochrome b5 and Cytochrome c Using Cyclic Voltammetry


19. Analysis of Arsenic(III) by Anodic Stripping Voltammetry

20. Anodic Stripping Voltammetry of Lead and Cadmium

21. Determination of Tetramethin in Soil and Water by Adsorptive Stripping Voltammetry

22. Determination of Trace Levels of Paraquat by Indirect Adsorptive Stripping Voltammetry

23. Trace Levels of Antimony and Bismuth in Snow and Water by ASV

24. Determination of Diisocyanate Monomers in Air by DPP

25. Determination of Isomethiozin in Soil by DPP

26. Determination of Trace Concentrations of Iron in Seawater by Adsorptive Stripping Voltammetry

27. Determination of Copper, Lead, Cadmium and Zinc in River Water

28. Determination of Lead Using Differential Pulse Stripping Voltammetry: Lead in Paint

29. Lead in Lake Water: Using the Controlled Growth Mercury Electrode (CGME) and Gold Electrode with Differential Pulse Stripping Voltammetry (DPSV)

30. Determination of Tin by Anodic Stripping Voltammetry

31. Determination of Food Colors in Corks

32. Determination of Monomeric Acrylic Acid in Sodium Polyacrylate

33. Determination of the Mercaptoundecahydro-closo-dodecarborate Dianion

34. Determination of the Pivazepam in Tablets and in Urine

35. Determination of Ciprofloxacin in Tablets

36. Determination of Vanadium by Adsorptive Stripping Voltammetry

37. Determination of Trace Levels of Bismuth by Adsorptive Stripping Voltammetry

38. Determination of Cr(VI) in Natural and Waste Waters Using Differential Pulse Polarography

39. Determination of Total Iodine in Thyroid Tablets Using Differential Pulse Polarography

40. Determination of Phenylmercuric Nitrate by Differential Pulse Polarography

41. Detection of Dacarbazine and Its Major Metabolite Using Differential Pulse Voltammetry

42. Determination of Carboplatin in Serum

43. Detection of Toxins by Measurement of Enzyme Inhibition

44. Determination of Lactate Concentrations Using a Lactate Dehydrogenase-Based Biosensor

45. Comparison of Two Biosensors Used for the Determination of Glucose Concentrations

46. Cyclic Voltammetry of Tetrathiafulvalene

47. Adsorption of Reduced Glutathione on a Mercury Surface

48. Determination of Fe2+ and Fe3+ Concentrations

49. Anodic Stripping Voltammetry of Lead and Cadmium

50. Mechanistic Study of Acetaminophen Oxidation Using CV

51. Potentiostatic Measurements of a Tc(III)/Tc(II)

52. Two-Electron Reduction of [(h6-C6Me6)2Ru]2+

53 Isomerization of [Ru(m-tBu2P)(CO)2]2

54. Characterization of (h3-C3H5)Mo(CO)2(NCMe)2Cl Compounds using Cyclic Voltammetry