In a review published on 1 January 2024, in the journal Microsystems & Nanoengineering, researchers discuss hydrogels in photonics, highlighting their potential to revolutionize the field. The article emphasizes how hydrogels enable devices to adapt and respond to their environment, promising significant advances in technology and biomedicine.
The review concentrates on harnessing the distinctive properties of hydrogels to develop dynamic photonic devices. Renowned for their deformable nature, hydrogels interact with water molecules through various forces, enabling them to expand and swell. This behavior allows them to modify their optical properties in response to external stimuli, like temperature and pH changes.
The research delves into several fabrication techniques, such as photopolymerization and electron beam lithography, to construct hydrogel structures at the nanoscale. Photopolymerization lets hydrogels form films and structures under UV light, while electron beam lithography facilitates the creation of intricate nanostructures by breaking molecular bonds within the hydrogel.
These techniques pave the way for hydrogel-based photonic devices capable of substantial, tunable optical alterations. Crafted devices can serve as dynamic optical cavities or nanocavities, reacting to external stimuli and offering enhanced optical responses. This innovative approach marks a new era in photonics, promising devices with unprecedented adaptability and responsiveness.
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