Key Words: Photolithography, Au Wires, Thin Films
The purpose and utility of the invention is to develop a highly precise and controllable method for fabricating thin polymer films with conductive properties.
The novelty here involves the method of fabrication of the thin polymer films using hypersurface photolithography and the composition of matter, which is the multiplexed polymer brush films, which are (i) patterned in 6-dimensions, (ii) transparent, and (iii) conductive across the patterns. The composition can vary to include regions that are wear resistant, regions that are hard to scratch, and regions that control glare, optical properties.
The utility of this invention lies in its ability to produce conductive thin films that can be used in a variety of applications, including:
• Flexible Electronics: The films can be used to create bendable displays, wearable sensors, and electronic skins due to their flexibility and high conductivity.
• Energy Storage Devices: The films' high surface area and tunable conductivity make them ideal for supercapacitors and batteries, enhancing charge storage and transfer.
• Sensors: The films can be engineered to respond selectively to various stimuli, making them suitable for highly sensitive chemical and biological sensors.
• Augmented Reality / virtual reality lenses
• To create protective lenses
• To print metamaterials onto lenses
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