Sub-100 nm-scale aluminum nanowires by stencil lithography: Fabrication and characterization

Abstract: Abstract-We present the fabrication process and electrical characterization of sub-100 nm scale Al nanowires (NWs) fabricated by stencil lithography (SL). We use a stencil with sub-100 nm wide nanoslits patterned by focused ion beam (FIB) milling. The stencil is aligned and clamped onto a substrate containing predefined electrical contacts. Then a 60 nm-thick layer of Aluminum (Al) is deposited through the stencil producing NWs with lengths of ~1, 2 and 5 µm and widths down to 65 nm. The NWs show an ohmic beha… Show more

“…Their interesting properties are due to their simple nature (Wu B. et al, 2005). Various fabrication methods of nanowires have been in development including nanoimprint Chen L. et al, 2007), side electroplating (Shankar & Raychaudhuri, 2005;Xiang et al, 2008), self assembly (Pauzauskie & Yang, 2006), and stencil lithography (Vazquez-Mena et al, 2008) etc. We have developed a simple, cost efficient and mass producible fabrication method for metal nanowires.…”

Laser Interference Lithography and Shadow Lithography for Fabricating Nanowires and Nanoribbons

“…Their interesting properties are due to their simple nature (Wu B. et al, 2005). Various fabrication methods of nanowires have been in development including nanoimprint Chen L. et al, 2007), side electroplating (Shankar & Raychaudhuri, 2005;Xiang et al, 2008), self assembly (Pauzauskie & Yang, 2006), and stencil lithography (Vazquez-Mena et al, 2008) etc. We have developed a simple, cost efficient and mass producible fabrication method for metal nanowires.…”

Laser Interference Lithography and Shadow Lithography for Fabricating Nanowires and Nanoribbons