Title :
Characterization of Optically Sensitive Amorphous Selenium Photodetector at High Electric Fields
Author :
Ghaffari, Saeedeh ; Abbaszadeh, Shiva ; Ghanbarzadeh, Sina ; Karim, Karim S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Waterloo, Waterloo, ON, Canada
Abstract :
We investigated the electrical conduction in indium tin oxide/polyimide (PI)/amorphous selenium/Au device structures, operated at high fields (up to 40 V/μm). Devices having different PI thicknesses (0.4-2.5 μm) with the same thickness of a-Se (16 μm) were fabricated, and the dark and photocurrent transient behavior of each device under different biasing voltages was tested. The results indicate that an optimal thickness of PI (~1 μm) was necessary to limit the dark current to below 10 pA/mm2 while achieving an ON/OFF ratio of 104, a result not achievable in devices without the PI layer. Furthermore, time-of-flight (TOF) measurements at low electric fields (~10 V/μm) were carried out to measure the exact voltage drop within the PI and a-Se films for the same structure. Based on these TOF measurements, the electric field within the PI layer was determined to reach 138 V/μm to provide efficient electrical conduction for photogenerated electrons.
Keywords :
amorphous semiconductors; electric fields; gold; indium compounds; photoconductivity; photodetectors; photoemission; polymers; selenium; Au; ITO; PI layer; Se; TOF measurements; amorphous selenium photodetector; electric fields; electrical conduction; indium tin oxide; photocurrent transient behavior; photogenerated electrons; polyimide layer; size 0.4 mum to 2.5 mum; size 16 mum; time-of-flight measurements; Current measurement; Dark current; Detectors; Indium tin oxide; Photoconductivity; Voltage measurement; X-ray imaging; Amorphous selenium (a-Se); optical detectors; polyimide (PI); time of flight (TOF); time of flight (TOF).;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2015.2436818
