On the Deficiencies of the Ferricinium-Ferrocene Redox Couple for Estimating Transfer Energies of Single Ions.
Abstract
The difference between the partial molal entropies of ferrocene and ferricinium has been determined in nine solvents from the temperature dependence of the formal potential of the ferricinium-ferrocene redox couple using a nonisothermal electrochemical cell arrangement in order to probe possible structural reasons for the limitations of the 'ferrocene assumption' for estimating the transfer thermodynamics of single ions between different solvents. In contrast to the uniformly small positive values of partial molal entropies of ferrocene and ferricinium predicted by the Born model, the experimental quantities varied widely from small or even negative values in hydrogen-bonded solvents (-5 to 3 e.u.) to substantially larger values (11-14 e.u.) in dipolar aprotic media. These variations appear to arise chiefly from additional solvent ordering in the vicinity of the ferricinium cation compared to the ferrocene molecule which is enhanced in the aprotic solvents. The variations in partial molal entropies of ferrocene and ferricinium between water and a number of nonaqueous solvents provide a predominate contribution to the differences between the free energies of single ion transfer calculated using the ferrocene and alternative extrathermodynamic assumptions.
Document Details
- Document Type
- Technical Report
- Publication Date
- Aug 15, 1980
- Accession Number
- ADA089388
Entities
People
- Michael J. Weaver
- Saeed Sahami
Organizations
- Michigan State University