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Hydrogels for active photonics
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AbstractConventional photonic devices exhibit static optical properties that are design-dependent, including the material’s refractive index and geometrical parameters. However, they still possess attractive optical responses for applications and are already exploited in devices across various fields. Hydrogel photonics has emerged as a promising solution in the field of active photonics by providing primarily deformable geometric parameters in response to external stimuli. Over the past few years, various studies have been undertaken to attain stimuli-responsive photonic devices with tunable optical properties. Herein, we focus on the recent advancements in hydrogel-based photonics and micro/nanofabrication techniques for hydrogels. In particular, fabrication techniques for hydrogel photonic devices are categorized into film growth, photolithography (PL), electron-beam lithography (EBL), and nanoimprint lithography (NIL). Furthermore, we provide insights into future directions and prospects for deformable hydrogel photonics, along with their potential practical applications.
Springer Science and Business Media LLC
Title: Hydrogels for active photonics
Description:
AbstractConventional photonic devices exhibit static optical properties that are design-dependent, including the material’s refractive index and geometrical parameters.
However, they still possess attractive optical responses for applications and are already exploited in devices across various fields.
Hydrogel photonics has emerged as a promising solution in the field of active photonics by providing primarily deformable geometric parameters in response to external stimuli.
Over the past few years, various studies have been undertaken to attain stimuli-responsive photonic devices with tunable optical properties.
Herein, we focus on the recent advancements in hydrogel-based photonics and micro/nanofabrication techniques for hydrogels.
In particular, fabrication techniques for hydrogel photonic devices are categorized into film growth, photolithography (PL), electron-beam lithography (EBL), and nanoimprint lithography (NIL).
Furthermore, we provide insights into future directions and prospects for deformable hydrogel photonics, along with their potential practical applications.
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