Add to ORKGConventional liquid microlens arrays are facing bottlenecks in controlling droplet size and shape, and limited aperture ratio. We report a new liquid/solvent approach to overcome these obstacles for making uniform droplet array and achieving similar to 90% aperture ratio. The droplets are very stable due to the pinning effect of the polymer walls and substrate surfaces. Using the fabricated droplet array, we demonstrate a tunable-focus microlens array based on dielectrophoretic effect. The microlens array exhibits a large dynamic range and fast response time ( tens of milliseconds). Besides liquid microlens arrays, this fabrication method also opens a new door for making other tunable photonic devices
Liquid microlenses are attractive for adaptive optics because they offer the potential for both high...
A microlens array made of polymer/nanosized polymer-dispersed liquid crystal (nano-PDLC) is demonstr...
We report a novel method to fabricate high zoom-ratio optofluidic compound microlenses using poly (d...
We demonstrate a simple and robust method to produce large 2-dimensional and quasi-3-dimensional arr...
We report of a method for fabricating two-dimensional, regular arrays of polymer microlenses with fo...
The interest in dynamically tuning light has attracted great attention to the fabrication of tunable...
A novel liquid crystal spherical microlens array with high optical power and almost 100% of fill-fac...
We demonstrate the design and integration of droplet-based microfluidic devices with microoptical el...
We present a high-numerical aperture, doublet microlens array for imaging micron-sized objects. The ...
A tunable-focus liquid microlens array based on dielectro-phoretic effect was demonstrated. In a len...
In this work, we present a novel kind of LC mixture (5005) for photonic applications, with emphasis ...
Microlens arrays (MLAs) based on the selective wetting have opened new avenues for developing compac...
This research is on a development of a variable focusing microlens system. The studies of modern res...
We describe high-precision microlenses with excellent optical characteristics. The lenses are formed...
We demonstrate a flat polymeric lenticular microlens array using a mixture of rod-like diacrylate mo...
Liquid microlenses are attractive for adaptive optics because they offer the potential for both high...
A microlens array made of polymer/nanosized polymer-dispersed liquid crystal (nano-PDLC) is demonstr...
We report a novel method to fabricate high zoom-ratio optofluidic compound microlenses using poly (d...
We demonstrate a simple and robust method to produce large 2-dimensional and quasi-3-dimensional arr...
We report of a method for fabricating two-dimensional, regular arrays of polymer microlenses with fo...
The interest in dynamically tuning light has attracted great attention to the fabrication of tunable...
A novel liquid crystal spherical microlens array with high optical power and almost 100% of fill-fac...
We demonstrate the design and integration of droplet-based microfluidic devices with microoptical el...
We present a high-numerical aperture, doublet microlens array for imaging micron-sized objects. The ...
A tunable-focus liquid microlens array based on dielectro-phoretic effect was demonstrated. In a len...
In this work, we present a novel kind of LC mixture (5005) for photonic applications, with emphasis ...
Microlens arrays (MLAs) based on the selective wetting have opened new avenues for developing compac...
This research is on a development of a variable focusing microlens system. The studies of modern res...
We describe high-precision microlenses with excellent optical characteristics. The lenses are formed...
We demonstrate a flat polymeric lenticular microlens array using a mixture of rod-like diacrylate mo...
Liquid microlenses are attractive for adaptive optics because they offer the potential for both high...
A microlens array made of polymer/nanosized polymer-dispersed liquid crystal (nano-PDLC) is demonstr...
We report a novel method to fabricate high zoom-ratio optofluidic compound microlenses using poly (d...