Fabrication of the similar porous alumina silicon template for soft UV nanoimprint lithography

Abstract

High density honeycombed nanostructures of porous alumina template (PAT) have been widely used to the fabrication of various electronic, optoelectronic, magnetic, and energy storage devices. However, patterning structures at sub-100nm feature size with large area and low cost is of great importance and hardness on which semiconductor manufacture technology depends. In this paper, soft UV nanoimprint lithography (SUNIL) by using PAT as the initial mold is studied in detail. The results reveal a significant incompatibility between these two candidates. The native nonflatness of the PAT surface is about 100nm in the range of 2–5μm. Resist detaches from the substrate because of the mold deformation in the nonflat SUNIL. A two-inch similar porous alumina silicon (Si) template with nanopore size of 50–100nm is fabricated. I–t curve conducted anodization and subsequent inductive coupled plasma (ICP) dry etching are applied to ensure the uniformity of the fabricated template. The surface flatness of the similar porous alumina Si template is the same as the polished Si wafer, which perfectly matches NIL.