Past, present, and future of applications of electroanalytical techniques in analytical and physical organic chemistry

Abstract

After a brief introduction describing the main milestones in the development of DC polarography (DCP) as well as linear sweep (LSV) and cyclic voltammetry (CV), attention is paid to first applications of DCP in the reduction of organic compounds. In aqueous solutions the electron transfer (ET) is often accompanied by a proton transfer. Limiting currents in DCP enable investigation of kinetics of chemical reactions preceding ET. Dependence of the limiting current on concentration of a reagent, like H+ or OH− ions, enables determination of rate constants (k) of very fast reactions, with k values between 104 and 1010 L mol−1 s−1, comparable with those studied by relaxation methods. Application of CV is most advantageous for investigation of rates of chemical reactions following the ET. Comparison of analytical applications of DCP (reductions) with those of LSV (oxidations) is given. Apart from fast reactions taking place before the ET in the solution in the vicinity of the electrode surface, DCP can also be used for investigation of slower reactions, taking place in the bulk of the solution. Data obtained by DCP for determination of equilibrium (K) and rate (k) constants of reactions of organic compounds. Hence, DCP can be used in physical organic chemistry of solutions, in some cases complementing data obtained by UV–vis spectrophotometry. Some examples of determinations of K and k are given. Uncertain future of practical analytical applications of DCP and LSV is discussed as is the brighter future of applications in physical organic chemistry. As the main factor limiting successful applications is considered the limited opportunity for education of future research advisors in academia and group supervisors in industry.