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W2056429799 endingPage "065005" @default.
W2056429799 startingPage "065005" @default.
W2056429799 abstract "The present paper describes a three-dimensional (3D) thick-photoresist microstructuring technique that exploits the effect of exposure wavelength on dissolution rate distributions in a thick-film diazonaphthoquinone (DNQ) photoresist. In fabricating 3D microstructure with specific applications, it is important to control the spatial dissolution rate distribution in the photoresist layer, since the lithographic performance for 3D microstructuring is largely determined by the details of the dissolution property. To achieve this goal, the effect of exposure wavelength on dissolution rate distributions was applied for 3D microstructuring. The parametric experimental results demonstrated (1) the advantages of the fabrication technique for 3D microstructuring and (2) the necessity of a dedicated simulation approach based on the measured thick-photoresist property for further verification. Thus, a simple and practical photolithography simulation model that makes use of the Fresnel diffraction theory and an empirically characterized DNQ photoresist property was adopted. Simulations revealed good quantitative agreement between the photoresist development profiles of the standard photolithography and the moving-mask UV lithography process. The simulation and experimental results conclude that the g-line (λ = 436 nm) process can reduce the dimensional limitation or complexity of the photolithography process for the 3D microstructuring which leads to nanoscale microstructuring." @default.
W2056429799 created "2016-06-24" @default.
W2056429799 creator A5064074469 @default.
W2056429799 creator A5081234240 @default.
W2056429799 creator A5088979644 @default.
W2056429799 creator A5045184002 @default.
W2056429799 date "2010-05-11" @default.
W2056429799 modified "2023-10-17" @default.
W2056429799 title "A three-dimensional microstructuring technique exploiting the positive photoresist property" @default.
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W2056429799 doi "https://doi.org/10.1088/0960-1317/20/6/065005" @default.
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