Voltammetry: A Look at Theory and Application

1. Voltammetry: A Look at Theory and Application Bobby Diltz 14 March 2005

2. Analytical Methods • Chromatography • Large amounts of materials used • Not very sensitive • Spectroscopy • Very sensitive • Able to separate species • Voltammetry • Extremely sensitive • Few components used • Wide range of concentrations

3. What is Voltammetry? • As an applied potential is changed over time a current is measured • Reduces ions in the electrode • Commonly uses three electrodes • Working Electrode (WE) • Auxiliary Electrode (AE) • Reference Electrode (RE)

4. Applications • Ultra Trace range metals (sub ppb) • Wastewater Analysis • Industrial Water/Liquor Analysis • “Polarographic Determination of Sulfur Compounds in Pulping Liquors” Dr. J.J. Renard • Sulfur compounds in weapons • Pharmaceutics • Environmental Studies • Biological/Biochemical Analysis • Plating Analysis

5. Techniques • Polarography • Uses direct reduction at the electrode • This technique has limited sensitivity • Uses the mercury drop electrode (SDME, DME) • Voltammetry (Anodic Stripping/Adsorptive Cathodic Stripping) • Electrochemical deposition • Determination by stripping • Very high sensitivity, down to the parts per trillion range • Uses a stationary electrode (HDME, RDE)

6. Working Electrode • The working electrode is used to show the response of the analyte to the potential • Mercury Electrode • Hanging Drop Mercury Electrode (HDME) • Used in the ppb to low ppm range • Static Drop Mercury Electrode (SDME) • Used in the low ppm range • Dropping Mercury Electrode (DME) • Used in the ppm range

7. Working Electrode (cont) • Rotating Disk Electrode (RDE) • Ultra Trace Graphite • Gold • Glassy Carbon* • Many other types of WE

8. Auxiliary Electrode • Completes the circuit between the potentiostat and the WE • Two different types available • Platinum • Glassy Carbon

9. Reference Electrode • Provides a reference potential to the WE/AE circuit • Two types of RE • Ag/AgCl in KCl • Hg/HgCl in saturated KCl

10. Electrolyte • One of the most difficult parts of method development with voltammetry!! • Electrolyte selection is greatly based on type of matrix • Electrolytes reduce voltage drop and promote a better flow of electrons through the solution, while also stabilizing half-wave potentials of analytes • Adjusts the pH • Increases selectivity

11. Measurement Modes • Direct Current • Sensitivity of 10-5 mol/L • Low separation ability • Wave form of polarogram • Differential Pulse • Sensitivity of 10-8 mol/L • High separation • Peak form of polarogram

12. More Measurement Modes • Alternating Current • Only for reversible reactions • Square Wave • Better for reversible reactions • Fast determinations • Cyclic Voltammetry • Useful in kinetic studies/qualitative analysis • Uses both oxidation and reduction steps

13. Why Use Voltammetry? • Handles high salt concentrations better than chromatographic instrumentation • Can differentiate between ionic species • Example: Cr6+  Cr3+ • Extremely low detection limits • Can detect a wide range of species

14. Summary • Voltammetry is a very useful form of instrumental analysis • Wide range of applications • Assortment of electrodes allows for a very specific analysis of different chemicals • Capable of very low to moderate detection limits- parts per trillion to low ppm range

15. References • “Chloride by Cathodic Stripping Voltammetry” Princeton Applied Research- Analytical Instrument Division • “Voltammetric Determination of Zinc, Cadmium, Lead, Copper, Thallium, Nickel, and Cobalt in Water Samples” Application note No. 231/2 E