Title :
Radiation-induced changes in the electrical properties of TiO2 thick films
Author :
Arshak, Khalil ; Korostynska, Olga ; Arshak, Arous ; Morris, Deirdre
Author_Institution :
ECE Dept., Limerick Univ.
Abstract :
The electrical properties of screen-printed TiO2 based thick films were explored in terms of gamma radiation influence. Screen-printed pn-heterojunctions and resistors were exposed to gamma-radiation from a 137Cs source with an activity of 370 kBq. To form the resistors, a doping of TiO2 paste with 2 wt.% of carbon was implemented to improve their conductivity. All samples showed an increase in the values of current with increasing radiation dose. The diode-type structures sustained a dose of 513 muSv, with considerable increase in leakage current values. Counterpart resistor-type structures experienced a three-order of magnitude increase in the values of current after irradiation with a dose of 7.524 mSv. Furthermore, S-type switching, followed by a forming effect were monitored at this stage, clearly attributed to the influence of gamma radiation
Keywords :
MIM structures; carbon; electric properties; gamma-ray effects; p-n heterojunctions; semiconductor doping; thick film resistors; thick films; titanium compounds; 513 muSv; 7.524 mSv; Cs; S-type switching; TiO2 thick films; TiO2-C; diode-type structure; electrical property; forming effect; gamma radiation effect; leakage current; radiation dose; resistor-type structure; screen-printed pn-heterojunction; screen-printed thick film; Gamma rays; Ionizing radiation; Optical materials; Physics; Powders; Resistors; Semiconductor films; Semiconductor materials; Sensor phenomena and characterization; Thick films;
Conference_Titel :
Electronics Technology: Meeting the Challenges of Electronics Technology Progress, 2005. 28th International Spring Seminar on
Conference_Location :
Wiener Neustadt
Print_ISBN :
0-7803-9325-2
DOI :
10.1109/ISSE.2005.1491062
