Versatile Approaches of Unconventional Fabrication Process in Biomedical Applications
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È«¼®¿ø ±³¼ö( ºÎ»ê´ëÇб³ Recent advances in bioelectronic devices have been developed from the rigid boards to be bendable, flexible, and even stretchable forms of circuits. New kinds of fabrication techniques for unconventional integrated devices, such as flexible displays, skin-mountable sensors, or a stretchable touch panel, are emerged as a dominant field of research to realize the new generation of bio-interfaced devices. Some broad classes of materials and related design in the electronics using mechanically stable interconnections or working electrodes built on plastic sheets, textile, or other transparent substrates have received great interest in wearable displays, biomedical devices, and multifunctional electronic systems. Here, some progress of designed principles effectively together with the applications for proper biointerfaces will be presented with a set of unconventional lithography, etching, and printing process. For practical bioelectronic applications, several flexible circuits such as LEDs, sensor arrays, a curved microlens with suitable electrodes will be discussed. |