(Invited) Technology Options to Reduce Contact Resistance in Nanoscale III-V MOSFETs

III-V semiconductors have emerged as the leading candidate to replace Si as the n-FET channel material for future low power logic applications. However, to realize the full performance benefits of III-V channels, it is crucial that external parasitic resistance (Rext) be minimized. Among the differe...

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Veröffentlicht in:	ECS transactions 2015-03, Vol.66 (4), p.125-134
Hauptverfasser:	Lee, Rinus T.P., Loh, Wei Yip, Tieckelmann, Robert, Orzali, Tommaso, Huffman, Craig, Vert, Alexey, Huang, Gensheng, Kelman, Maxim, Karim, Zia, Hobbs, Chris, Hill, Richard J.W., Papa Rao, S.S.
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container_title	ECS transactions
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creator	Lee, Rinus T.P. Loh, Wei Yip Tieckelmann, Robert Orzali, Tommaso Huffman, Craig Vert, Alexey Huang, Gensheng Kelman, Maxim Karim, Zia Hobbs, Chris Hill, Richard J.W. Papa Rao, S.S.
description	III-V semiconductors have emerged as the leading candidate to replace Si as the n-FET channel material for future low power logic applications. However, to realize the full performance benefits of III-V channels, it is crucial that external parasitic resistance (Rext) be minimized. Among the different components of Rext, contact resistance (RC), between metal and source/drain (S/D) junctions, has become the critical focus. Historically, multi-layered Au-based contacts (e.g. Au/Ge/III-V) are used in III-V processing to lower RC. However, the renewed interest in III-V semiconductors has attracted an increasing interest in developing Au-free contacts to III-V with low RC. In addition, a "silicide-like" metal contact process for III-V was recently developed by reacting Ni with InGaAs to form Ni-InGaAs. This is significant as it enables self-alignment and offers the option of using a common S/D contact metal in a hetero-integrated device flow (e.g. Ge/III-V). In this paper, we will review these RC reduction options and present some of our recent results on contact/junction engineering to lower RC in III-V MOSFETs.
doi_str_mv	10.1149/06604.0125ecst
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title	(Invited) Technology Options to Reduce Contact Resistance in Nanoscale III-V MOSFETs
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