TY - GEN
T1 - Roll-to-roll nanoimprinting metamaterials
AU - Greenwald, Anton
AU - Ryu, Jae
AU - Liu, Yisi
AU - Biswas, Rana
AU - Ok, Jong
AU - Youn, Hongseok
AU - Kwak, Moonkyu
AU - Kang, Myung Gyu
AU - Guo, L. Jay
PY - 2011
Y1 - 2011
N2 - We investigated continuous fabrication of a large area 2-D metamaterial comprising a metal dot array on a dielectric coated substrate. We demonstrated patterning of metal dots arrays of varying patterns and shapes with diameter of about 2.5 μm and metal-to-metal spacing from 0.3 to 2.5 μm using a nano-imprinting stamp on a roller. The pattern was first fabricated on a standard photolithography mask, reproduced onto a silicon wafer master mold, and then transferred to a flexible polymer mold that was wrapped around a metal roller. The method was used to pattern a thin Al layer on top of SiO2 on a flexible polymer substrate. The aluminum was coated with a resist and the roller moved over the substrate with adjustable speed and pressure to imprint the fine pattern into the resist. The resist was cured, and a very thin layer of residual resist was removed by RIE, followed by a standard etching treatment for patterning the aluminum layer. The as-etched pattern had very few defects and the optical properties of the metamaterial were excellent and correlated well with simulations. This work has shown that low cost, rapid roll-to-roll processing of 2-D metamaterial structures is possible.
AB - We investigated continuous fabrication of a large area 2-D metamaterial comprising a metal dot array on a dielectric coated substrate. We demonstrated patterning of metal dots arrays of varying patterns and shapes with diameter of about 2.5 μm and metal-to-metal spacing from 0.3 to 2.5 μm using a nano-imprinting stamp on a roller. The pattern was first fabricated on a standard photolithography mask, reproduced onto a silicon wafer master mold, and then transferred to a flexible polymer mold that was wrapped around a metal roller. The method was used to pattern a thin Al layer on top of SiO2 on a flexible polymer substrate. The aluminum was coated with a resist and the roller moved over the substrate with adjustable speed and pressure to imprint the fine pattern into the resist. The resist was cured, and a very thin layer of residual resist was removed by RIE, followed by a standard etching treatment for patterning the aluminum layer. The as-etched pattern had very few defects and the optical properties of the metamaterial were excellent and correlated well with simulations. This work has shown that low cost, rapid roll-to-roll processing of 2-D metamaterial structures is possible.
UR - http://www.scopus.com/inward/record.url?scp=84880534281&partnerID=8YFLogxK
U2 - 10.1557/opl.2012.974
DO - 10.1557/opl.2012.974
M3 - Conference contribution
AN - SCOPUS:84880534281
SN - 9781627482264
T3 - Materials Research Society Symposium Proceedings
SP - 19
EP - 24
BT - Mechanical Nanofabrication, Nanopatterning and Nanoassembly
T2 - 2011 MRS Fall Meeting
Y2 - 28 November 2011 through 3 December 2011
ER -