Improved slicing strategy for digital micromirror device‐based three‐dimensional lithography with a single scan

Abstract: To improve the profile quality of three-dimensional microstructures, an improved method was proposed in real-time maskless lithography based on digital micromirror device. First, to calculate the spatial distribution of exposure dose for the target profile in design, the relations of the exposure dose and the development depth were investigated. Moreover, a suitable development time was obtained. Second, an improved slicing strategy based on equal-arc algorithm was proposed to reduce the profile error. Differe… Show more

“…As micro/nano structural components with continuous surfaces, fabrication technologies for microlens arrays include laser direct writing [4][5][6], multi-layer etching [7,8], grayscale lithography [9][10][11], 3D printing technology [12][13][14], and mask-moving technologies [15]. Direct writing technology offers a high precision and resolution but is costly and less efficient, so it is unsuitable for mass fabrication or fabrication of large-sized micro-optical elements.…”

Mask-Moving-Lithography-Based High-Precision Surface Fabrication Method for Microlens Arrays

“…As micro/nano structural components with continuous surfaces, fabrication technologies for microlens arrays include laser direct writing [4][5][6], multi-layer etching [7,8], grayscale lithography [9][10][11], 3D printing technology [12][13][14], and mask-moving technologies [15]. Direct writing technology offers a high precision and resolution but is costly and less efficient, so it is unsuitable for mass fabrication or fabrication of large-sized micro-optical elements.…”

Mask-Moving-Lithography-Based High-Precision Surface Fabrication Method for Microlens Arrays

A simple method for shape modulation in microlens array fabrication via spin-coating process

Fabrication of high fill-factor aspheric microlens array by dose-modulated lithography and low temperature thermal reflow