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Macroscopic Alignment of Block Copolymers on Silicon Substrates by Laser Annealing

Arkadiusz A. Leniart, Przemysław Puła, Andrzej Sitkiewicz, Paweł W. Majewski

2020ACS Nano53 citationsDOIOpen Access PDF

Abstract

Laser annealing is a competitive alternative to conventional oven annealing of block copolymer (BCP) thin films enabling rapid acceleration and precise spatial control of the self-assembly process. Localized heating by a moving laser beam (zone annealing), taking advantage of steep temperature gradients, can additionally yield aligned morphologies. In its original implementation it was limited to specialized germanium-coated glass substrates, which absorb visible light and exhibit low-enough thermal conductivity to facilitate heating at relatively low irradiation power density. Here, we demonstrate a recent advance in laser zone annealing, which utilizes a powerful fiber-coupled near-IR laser source allowing rapid BCP annealing over a large area on conventional silicon wafers. The annealing coupled with photothermal shearing yields macroscopically aligned BCP films, which are used as templates for patterning metallic nanowires. We also report a facile method of transferring laser-annealed BCP films onto arbitrary surfaces. The transfer process allows patterning substrates with a highly corrugated surface and single-step rapid fabrication of multilayered nanomaterials with complex morphologies.

Topics & Concepts

Materials scienceAnnealing (glass)WaferSiliconLaserOptoelectronicsFabricationPhotothermal therapyNanotechnologyComposite materialOpticsAlternative medicinePathologyPhysicsMedicineBlock Copolymer Self-AssemblyFluid Dynamics and Thin FilmsNanofabrication and Lithography Techniques
Macroscopic Alignment of Block Copolymers on Silicon Substrates by Laser Annealing | Litcius