Title: TiO2/GeOxNy stacked gate dielectrics for Ge-MOSFETs
Authors: Bera, M. K.
Mahata, C.
Chakraborty, A. K.
Nandi, S. K.
Tiwari, Jitendra N.
Hung, Jui-Yi
Maiti, C. K.
材料科學與工程學系
電子工程學系及電子研究所
Department of Materials Science and Engineering
Department of Electronics Engineering and Institute of Electronics
Issue Date: 1-Dec-2007
Abstract: In this work, we present the results of physical and electrical characterization of Ti-based high-k gate dielectrics on Ge substrates. Titanium tetrakis isopropoxide (TTIP) was used as the organometallic source for the deposition of ultra-thin TiO2 films on p-Ge (100) at low temperature (< 200 degrees C) by plasma enhanced chemical vapor deposition (PECVD) technique in a microwave (700 W, 2.45 GHz) plasma cavity discharge system at a pressure of similar to 65 Pa. The presence of an ultra-thin lossy GeO2 interfacial layer between the deposited high-k film and the substrate, results in frequency-dependent capacitance-voltage (C-V) characteristics in strong accumulation and a high interface state density (similar to 10(13) cm(-2) eV(-1)). To improve the electrical properties, nitrogen engineering has been employed to convert the lossy GeO2 interfacial layer to its oxynitride, thus forming TiO2/GeOxNy/Ge stacked-gate structure with improved interface/electrical properties. Different N sources, such as NO, NH3 and NO/NH3, have been used for nitrogen engineering. XPS and Raman spectroscopy analyses have been used for surface morphological study. Electrical properties, such as gate leakage current density, interface state density, charge trapping, flatband voltage shift, etc, have been studied in detail for TiO2/GeOxNy/Ge MIS capacitors using the current-voltage (I-V), capacitance-voltage (C-V), conductance-voltage (G-V) and stress (both constant voltage and current) measurements. Although a significant improvement in electrical characteristics has been observed after nitridation in general, the formation of the interfacial GeOxNy layer, obtained from NO-plasma nitridation, is found to provide the maximum improvement among all the nitridation techniques used in this study. It is shown that the insertion of an ultra-thin oxynitride (GeOxNy) interfacial layer is advantageous for producing gate-quality TiO2 high-k dielectric stacks on Ge substrates.
URI: http://dx.doi.org/10.1088/0268-1242/22/12/020
http://hdl.handle.net/11536/10065
ISSN: 0268-1242
DOI: 10.1088/0268-1242/22/12/020
Journal: SEMICONDUCTOR SCIENCE AND TECHNOLOGY
Volume: 22
Issue: 12
Begin Page: 1352
End Page: 1361
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