Jing Wang scite author profile

The interest in dynamically tuning light has attracted great attention to the fabrication of tunable microlens arrays. Here we discuss the fabrication and characterization of a simple, robust, yet tunable microfluidic optical device with integrated microlens array. The microfuidic device with desired channel structure was micromachined on a polycarbonate plate with a resolution up to 100 µm, followed by thermal bonding two plates above their glass transition temperature. The microlens arrays were replica molded on a glass slide, which was then attached to the polycarbonate plates. By simply actuating the liquids with variable refractive index into the fluidic channel to immerse the lens arrays without moving or deformation of microlenses, a large change of focal length of more than 10 times (ƒ=0.74 to 8.53) was achieved. When a dye-containing liquid was pumped into the microfluidic channel to cover the lenses, the light transmission through the lenses was reduced from about 95% to 55% when the dye concentration was increased to 10 w/v %. The knowledge we gain from these studies will provide important insights to contruct new, adaptive, micro-scale optical devices with multiple functionalities. 2 AbstractThe interest in dynamically tuning light has attracted great attention to the fabrication of tunable microlens arrays. Here we discuss the fabrication and characterization of a simple, robust, yet tunable microfluidic optical device with integrated microlens array. The microfluidic device with desired channel structure was micromachined on a polycarbonate plate with a resolution up to 100 μm, followed by thermal bonding two plates above their glass transition temperature. The microlens arrays were replica molded on a glass slide, which was then attached to the polycarbonate plates. By simply actuating the liquids with variable refractive index into the fluidic channel to immerse the lens arrays without moving or deformation of microlenses, a large change of focal length of more than 10 times (f = 0.74 to 8.53) was achieved. When a dye-containing liquid was pumped into the microfluidic channel to cover the lenses, the light transmission through the lenses was reduced from about 95% to 55% when the dye concentration was increased to 10 w/v %. The knowledge we gain from these studies will provide important insights to construct new, adaptive, micro-scale optical devices with multiple functionalities.

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Fluorescence immunoassay for multiplex detection of organophosphate pesticides in agro-products based on signal amplification of gold nanoparticles and oligonucleotides

Zhang¹,

Jiang

Jin³

et al. 2020

Food Chemistry

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Improved enzyme immobilization for enhanced bioelectrocatalytic activity of choline sensor and acetylcholine sensor

Zhang

Chen

Wang

et al. 2014

Sensors and Actuators B: Chemical

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Behavioral responses to echolocation calls from sympatric heterospecific bats: implications for interspecific competition

Wang

Metzner

et al. 2014

Behav Ecol Sociobiol

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A uranium capture strategy based on self-assembly in a hydroxyl-functionalized ionic liquid extraction system

Chen

Wu²,

Yang

et al. 2019

Chem. Commun.

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Jing Wang

Tunable microfluidic optical devices with an integrated microlens array

Fluorescence immunoassay for multiplex detection of organophosphate pesticides in agro-products based on signal amplification of gold nanoparticles and oligonucleotides

Improved enzyme immobilization for enhanced bioelectrocatalytic activity of choline sensor and acetylcholine sensor

Behavioral responses to echolocation calls from sympatric heterospecific bats: implications for interspecific competition

A uranium capture strategy based on self-assembly in a hydroxyl-functionalized ionic liquid extraction system

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