A new technical paper titled “Composition Dependent Electrical Transport in Si1−xGex Nanosheets with Monolithic Single-Elementary Al Contacts” was published by researchers at TU Wien (Vienna University of Technology), Johannes Kepler University, CEA-LETI, and Swiss Federal Laboratories for Materials Science and Technology.
Find the technical paper here. Published September 2022.
Abstract:
“Si1−xGex is a key material in modern complementary metal-oxide-semiconductor and bipolar devices. However, despite considerable efforts in metal-silicide and -germanide compound material systems, reliability concerns have so far hindered the implementation of metal-Si1−xGex junctions that are vital for diverse emerging “More than Moore” and quantum computing paradigms. In this respect, the systematic structural and electronic properties of Al-Si1−xGex heterostructures, obtained from a thermally induced exchange between ultra-thin Si1−xGex nanosheets and Al layers are reported. Remarkably, no intermetallic phases are found after the exchange process. Instead, abrupt, flat, and void-free junctions of high structural quality can be obtained. Interestingly, ultra-thin interfacial Si layers are formed between the metal and Si1−xGex segments, explaining the morphologic stability. Integrated into omega-gated Schottky barrier transistors with the channel length being defined by the selective transformation of Si1−xGex into single-elementary Al leads, a detailed analysis of the transport is conducted. In this respect, a report on a highly versatile platform with Si1−xGex composition-dependent properties ranging from highly transparent contacts to distinct Schottky barriers is provided. Most notably, the presented abrupt, robust, and reliable metal-Si1−xGex junctions can open up new device implementations for different types of emerging nanoelectronic, optoelectronic, and quantum devices.”
Citation:
Wind, L., Sistani, M., Böckle, R., Smoliner, J., Vukŭsić, L., Aberl, J., Brehm, M., Schweizer, P., Maeder, X., Michler, J., Fournel, F., Hartmann, J.-M., Weber, W. M., Composition Dependent Electrical Transport in Si1−xGex Nanosheets with Monolithic Single-Elementary Al Contacts. Small 2022, 18, 2204178. https://doi.org/10.1002/smll.202204178.
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