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Self-formation of sub-10 nm nanogaps based on silicidation

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Tang, Xiaohui [UCL] Francis, Laurent [UCL] Dutu, Constantin Augustin [UCL] Reckinger, Nicolas [FUNDP] Raskin, Jean-Pierre [UCL]

We have developed a simple and reliable method for the fabrication of sub-10 nm wide nanogaps. The self-formed nanogap is based on the stoichiometric solid-state reaction between metal and silicon atoms during the silicidation process. The nanogap width is determined by the metal layer thickness. Our proposed method can produce symmetric and asymmetric electrode nanogaps, as well as multiple nanogaps within one unique process step, for potential application to biological/chemical sensors and nanoelectronics, such as resistive switches, storage devices, and vacuum channel transistors. This method provides high throughput and it is suitable for large-scale production.

Document type Article de périodique (Journal article) – Article de recherche
Access type Accès restreint
Publication date 2014
Language Anglais
Journal information "Nanotechnology" - Vol. 25, no.115201, p. 115201-1/9 (24/02/2014)
Peer reviewed yes
Publisher Institute of Physics Publishing Ltd. ((United Kingdom) Bristol)
issn 0957-4484
e-issn 1361-6528
Publication status Publié
Affiliation UCL - SST/ICTM/ELEN - Pôle en ingénierie électrique
Keywords Nanogap ; Silicidation ; Stoichiometric solid-state reaction
Links
Bibliographic reference Tang, Xiaohui ; Francis, Laurent ; Dutu, Constantin Augustin ; Reckinger, Nicolas ; Raskin, Jean-Pierre. Self-formation of sub-10 nm nanogaps based on silicidation. In: Nanotechnology, Vol. 25, no.115201, p. 115201-1/9 (24/02/2014)
Permanent URL http://hdl.handle.net/2078.1/140305