Simulation of 3d Inclined/Rotated Uv Lithography and Its Application To Microneedles
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BRONZE
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Yes
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Abstract
A 3D model is set up to simulate the exposure process of inclined/rotated UV lithography for negative SU-8 resists. The formation of inclined resist pillars and microstructures with truncated cone shapes is simulated based on a 3D exposure model in combination with a post exposure bake model for chemically amplified resists and the Mack development model. As one of the interesting applications employing this promising lithography technique for MEMS fabrication, a solid microneedle for drug delivery is simulated.
Description
Keywords
3D simulation, Inclined and rotated exposure, Microneedles, UV lithography, Three dimensional computer graphics, UV lithography, Inclined and rotated exposure, Three dimensional computer graphics, 3D simulation, Microneedles
Fields of Science
02 engineering and technology, 0210 nano-technology, 01 natural sciences, 0104 chemical sciences
Citation
Liu, S., Roeder, G., Aygün, G., Motzek, K., Evanschitzky, P. and Erdmann, A. (2012). Simulation of 3D inclined/rotated UV lithography and its application to microneedles. Optik, 123(10), 928-931. doi:10.1016/j.ijleo.2011.07.007
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OpenCitations Citation Count
7
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Volume
123
Issue
10
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928
End Page
931
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CrossRef : 7
Scopus : 9
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9
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9
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736
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531
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