Title :
Dark Current Reduction in ZnO-Based MSM Photodetectors with Interfacial Thin Oxide Layer
Author :
Mohammadnejad, Shahram ; Maklavani, Shahin Enayati ; Rahimi, Ehsan
Author_Institution :
Nanoptronics Lab., Iran Univ. of Sci. & Technol. Tehran, Tehran
Abstract :
In this paper the current transport mechanism of ZnO-based metal-semiconductor-metal ultraviolet photodetectors with various contact electrodes is discussed and simulated. The simulation is based on the thermionic emission theory and tunneling effects. It was found that the lowest dark current attributes to the Ru contact electrode. Moreover, it is shown that in order to achieve a large Schottky barrier height on ZnO and more reduction of dark current, one can insert a thin oxide layer between contacts and ZnO layer. The influence of the thickness of the insulator layer on the dark current of the MIS photodetector has also analyzed.
Keywords :
II-VI semiconductors; MIS devices; Schottky barriers; dark conductivity; metal-semiconductor-metal structures; photodetectors; ruthenium; semiconductor device models; thermionic emission; tunnelling; wide band gap semiconductors; zinc compounds; MIS photodetector; Schottky barrier height; ZnO-Ru; ZnO-based MSM photodetector; contact electrode; current transport mechanism; dark current reduction; insulator layer; interfacial thin oxide layer; metal-semiconductor-metal ultraviolet photodetector simulation; thermionic emission theory; tunneling effect; Dark current; Detectors; Electrodes; Insulation; Optical materials; Photodetectors; Photonic band gap; Schottky barriers; Substrates; Zinc oxide; Dark current; MSM photodetector; ZnO; thermionic emission;
Conference_Titel :
High Capacity Optical Networks and Enabling Technologies, 2008. HONET 2008. International Symposium on
Conference_Location :
Penang
Print_ISBN :
978-1-4244-2960-8
Electronic_ISBN :
978-1-4244-2961-5
DOI :
10.1109/HONET.2008.4810246
