Current Transport Mechanisms and Capacitance Characteristic in the InN/InP Schottky Structures

In this work, electrical characterization of the current-voltage and capacitance- voltage curves for the Metal/InN/InP Schottky structures are investigated. We have studied electrically thin InN films realized by the nitridation of InP (100) substrates using a Glow Discharge Source (GDS) in ultra h...

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Bibliographic Details
Main Authors: K. AMEUR, Z. BENAMARA, H. MAZARI, N. BENSEDDIK, R. KHELIFI, M. MOSTEFAOUI, M. A. BENAMARA, B. GRUZZA, J. M. BLUET, C. BRU-CHEVALLIER
Format: Article
Language:English
Published: IFSA Publishing, S.L. 2014-05-01
Series:Sensors & Transducers
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Online Access:http://www.sensorsportal.com/HTML/DIGEST/may_2014/Special_issue/P_SI_471.pdf
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Summary:In this work, electrical characterization of the current-voltage and capacitance- voltage curves for the Metal/InN/InP Schottky structures are investigated. We have studied electrically thin InN films realized by the nitridation of InP (100) substrates using a Glow Discharge Source (GDS) in ultra high vacuum. The I (V) curves have exhibited anomalous two-step (kink) forward bias behaviour; a suitable fit was only obtained by using a model of two discrete diodes in parallel. Thus, we have calculated, using I(V) and C(V) curves of Hg/InN/InP Schottky structures, the ideality factor n, the saturation current Is, the barrier height jB, the series resistance Rs, the doping concentration Nd and the diffusion voltage Vd. We have also presented the band diagram of this heterojunction which indicates the presence of a channel formed by holes at the interface InN/InP which explain by the presence of two-dimensional electron gas (2-DEG) and this was noticed in the presentation of characteristics C(V).
ISSN:2306-8515
1726-5479