摘要
Electrochemical oxidation of diphenylamine(DPA)in acetonitrile solution produced an adhesive conducting polydiphenylamine(PDPA)film on the electrode,which exhibited multiple colour variation in a wide range of potential.The polymer was characterized by cyclic voltam- merry,FTIR and ESR.The results indicate that the electropolymerization of diphenylamine per- forms via the 4,4'C—C phenyl-phenyl coupling mechanism.FTIR,ESR and conductivity mea- surements for the different states of PDPA show that polydiphenylamine can be reversibly doped and dedoped either chemically or electrochemically.It is evidenced also that there are paramagnetic species—polarons in PDPA supposed to be the current carrier.
Electrochemical oxidation of diphenylamine(DPA)in acetonitrile solution produced an adhesive conducting polydiphenylamine(PDPA)film on the electrode,which exhibited multiple colour variation in a wide range of potential.The polymer was characterized by cyclic voltam- merry,FTIR and ESR.The results indicate that the electropolymerization of diphenylamine per- forms via the 4,4'C—C phenyl-phenyl coupling mechanism.FTIR,ESR and conductivity mea- surements for the different states of PDPA show that polydiphenylamine can be reversibly doped and dedoped either chemically or electrochemically.It is evidenced also that there are paramagnetic species—polarons in PDPA supposed to be the current carrier.
基金
Work supported by the National Natural Science Foundation of China.
