Title :
Non-linear conduction and dispersion in conducting polymers
Author :
Arnold, W.M. ; Harris, P. ; Partridge, C.A. ; Andrews, M.K.
Author_Institution :
Sensors Group, New Zealand Inst. for Ind. Res. & Dev., Lower Hutt, New Zealand
Abstract :
The conductivity of thin films of conducting polymer deposited between lithographically-fabricated microelectrodes was measured between 100 Hz and 40 MHz. The inter-electrode spacing of 10 μm gave field strengths up to 50 kV/m within the film in response to applied voltages up to 0.5 V. The conductance and capacitance of the films exhibited sample- and counter-ion-dependent degrees of voltage-dependency at frequencies below 1 MHz, but became essentially voltage-independent above about 30 MHz (at room temperature). The disappearance of the voltage sensitivity coincides with a dispersion in the 1-30 MHz range. These results suggest that the low-frequency conductivity of the films is determined by the difficulty involved in inter-granular or inter-domain charge transport
Keywords :
capacitance; conducting polymers; dielectric losses; electric sensing devices; electric strength; electrical conductivity; gas sensors; polymer films; 10 micron; 100 Hz to 40 MHz; 25 mV to 5 V; capacitance; conducting polymers; counter-ion-dependent voltage-dependency; field strengths; gas sensors; inter-domain charge transport; inter-electrode spacing; inter-granular charge transport; lithographically-fabricated microelectrodes; low-frequency conductivity; polymer thin films; polypyrroles; sample-dependent voltage-dependency; sensor arrays; voltage sensitivity; Capacitance; Conductive films; Conductivity; Dielectric measurements; Electrodes; Frequency; Insulation life; Polymer films; Sensor arrays; Voltage;
Conference_Titel :
Electrical Insulation and Dielectric Phenomena, 1996., IEEE 1996 Annual Report of the Conference on
Conference_Location :
Millbrae, CA
Print_ISBN :
0-7803-3580-5
DOI :
10.1109/CEIDP.1996.564572
