Back-end-of-line compatible contact materials for carbon nanotube based interconnects
Autor: | Thomas Gessner, Dietrich R. T. Zahn, Stefan E. Schulz, Evgeniya Sheremet, Marius Toader, Sascha Hermann, Michael Hietschold, Raul D. Rodriguez, M. Rennau, Holger Fiedler |
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Přispěvatelé: | Publica |
Jazyk: | angličtina |
Rok vydání: | 2015 |
Předmět: |
Interconnection
Materials science Contact resistance chemistry.chemical_element Nanotechnology Carbon nanotube Nitride Condensed Matter Physics Atomic and Molecular Physics and Optics Surfaces Coatings and Films Electronic Optical and Magnetic Materials law.invention Carbide Back end of line chemistry law Electrical and Electronic Engineering Composite material Tin Layer (electronics) |
Popis: | Display Omitted Growth and characterization of CNT based interconnects.Evaluation of the optimal BEOL-compatible metal-CNT interface.Nitrides provide a low contact resistance at the bottom metallization.A Ta-CNT interface has the lowest contact resistance for interconnect applications. Carbon nanotube (CNT) based interconnects with different metal-CNT contacts were prepared and characterized. All investigated contact materials are compatible with the back-end-of-line processing. For interconnect applications the length of the metal-CNT contact interface has to be extremely short, and has to have a low contact resistance. In order to provide a reliable interface between the metal and the CNTs the applied metal should form stable carbides. Indeed, Ta and Ti are beneficial in terms of contact resistance for the top metallization with Ta even outperforming Ti. However, those materials are non-noble metals and hence can oxidize. Besides the metals Ta and Ti, also their metal nitrides were investigated as bottom metallization. They outperform the pure metals since TaN and TiN are more resistant towards oxidation during subsequent processing steps. However, an extremely thin Ta layer also proves beneficial since in this case the formation of a conductive TaC during the CNT growth process is feasible. Unfortunately, insufficiently controlled oxidation processes occur which impairs the reproducibility and hence causes the average via to have a higher resistance. |
Databáze: | OpenAIRE |
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