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7 October 2014 Systematic study of metal-insulator-metal diodes with a native oxide
E. Donchev, P. M. Gammon, J. S. Pang, P. K. Petrov, N. McN. Alford
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Proceedings Volume 9177, Thin Films for Solar and Energy Technology VI; 91770C (2014) https://doi.org/10.1117/12.2061959
Event: SPIE Solar Energy + Technology, 2014, San Diego, California, United States
Abstract
In this paper, a systematic analysis of native oxides within a Metal-Insulator-Metal (MIM) diode is carried out, with the goal of determining their practicality for incorporation into a nanoscale Rectenna (Rectifying Antenna). The requirement of having a sub-10nm oxide scale is met by using the native oxide, which forms on most metals exposed to an oxygen containing environment. This, therefore, provides a simplified MIM fabrication process as the complex, controlled oxide deposition step is omitted. We shall present the results of an investigation into the current-voltage characteristics of various MIM combinations that incorporate a native oxide, in order to establish whether the native oxide is of sufficient quality for good diode operation. The thin native oxide layers are formed by room temperature oxidation of the first metal layer, deposited by magnetron sputtering. This is done in-situ, within the deposition chamber before depositing the second metal electrode. Using these structures, we study the established trend where the bigger the difference in metal workfunctions, the better the rectification properties of MIM structures, and hence the selection of the second metal is key to controlling the device's rectifying properties. We show how leakage current paths through the non-optimised native oxide control the net current-voltage response of the MIM devices. Furthermore, we will present the so-called diode figures of merit (asymmetry, non-linearity and responsivity) for each of the best performing structures.
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E. Donchev, P. M. Gammon, J. S. Pang, P. K. Petrov, and N. McN. Alford "Systematic study of metal-insulator-metal diodes with a native oxide", Proc. SPIE 9177, Thin Films for Solar and Energy Technology VI, 91770C (7 October 2014); https://doi.org/10.1117/12.2061959
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