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Reaction‐Diffusion‐Mediated Photolithography for Designing Pseudo‐3D Microstructures
Author(s) -
Kim Ju Hyeon,
Je Kwanghwi,
Shim Tae Soup,
Kim ShinHyun
Publication year - 2017
Publication title -
small
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.785
H-Index - 236
eISSN - 1613-6829
pISSN - 1613-6810
DOI - 10.1002/smll.201603516
Subject(s) - photolithography , materials science , microlens , microstructure , diffusion , nanotechnology , ultraviolet , lithography , lens (geology) , photomask , optoelectronics , optics , resist , composite material , physics , thermodynamics , layer (electronics)
Microstructures with 3D features provide advanced functionalities in many applications. Reaction‐diffusion process has been employed in photolithography to produce pseudo‐3D microstructures in a reproducible manner. In this work, the influences of various parameters on growth behavior of polymeric structures are investigated and the use of the reaction‐diffusion‐mediated photolithography (RDP) is expanded to a wide range of structural dimensions. In addition, how a lens effect alters the growth behavior of microstructures in conjunction with reaction‐diffusion process is studied. For small separation between reaction sites in the array, ultraviolet (UV) exposure time is optimized along with the separation to avoid film or plateau formation. It is further proved that the RDP process is highly reproducible and applicable to various photocurable resins. In a demonstrative purpose, the use of microdomes created by the RDP process as microlens arrays is shown. The RDP process enables the production of pseudo‐3D microstructures even with collimated UV light in the absence of complex optical setups, thereby potentially serving as a useful means to create micropatterns and particles with unique structural features.