论文信息 - Free radical formation in reactions of lecithin with tetracyanoquinodimethane and tetracyanoethylene: relating the behavior of membrane-partitioned electrochemical cells to charge carrier using electron spin resonance.

Free radical formation in reactions of lecithin with tetracyanoquinodimethane and tetracyanoethylene: relating the behavior of membrane-partitioned electrochemical cells to charge carrier using electron spin resonance.

Electron spin resonance spectra of solutions used to make conductive bilayer lipid membranes reveal that free radical formation is a precursor to membrane conductivity. Tetracyanoquinodimethane (TCNQ) forms a stable radical that self-aggregates in nonaqueous media, yet will diffuse into the aqueous phase as a monomer, potentially allowing interfacial exchange. Tetracyanoethylene (TCNE) will undergo hydrolysis via a radical intermediate, and the decomposition product is ESR silent. The electrochemical response of an electrochemical cell partitioned by a membrane modified by these dopants is ionic for TCNE. Although the mechanism is less clear for TCNQ, the role of a stable radical is clearly implicated.

C. Bender

[1] J. Farges. Organic Conductors: Fundamentals and Applications , 1994 .

[2] H. Tien,et al. Origins of the voltammetric response of bilayer membranes modified with strong electron acceptors , 1990 .

[3] W. R. Hertler,et al. Substituted Quinodimethans. I. Preparation and Chemistry of 7,7,8,8-Tetracyanoquinodimethan , 1962 .

[4] C. Bender. Voltammetric studies of ion transfer across model biological membranes , 1988 .

[5] P. Tittarelli,et al. Determination of sulphur in fuel oils by absorption spectrometry of electrothermally generated carbon sulphide molecules , 1987 .

[6] W. O. Lundberg. AUTOXIDATION AND ANTIOXIDANTS , 1961 .