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Explores transduction through actuation mechanisms, covering force-based and deformation-based methods, shape memory polymers, electrostatic and magnetic actuation principles, and examples like Texas Instruments DLP & DMD.
Delves into the design, fabrication, and functionality of soft bio-integrated and bio-mimetic electronics for mobile health and human-centered robotics.
Covers neuroengineering techniques for restoring sensory feedback in bionic prostheses, focusing on electrode design and targeted muscle reinnervation.
Explores probe detection through faradaic processes at electrochemical interfaces with enzymes, covering redox reactions, sensitivity metrics, and detection limits.
Explores probe detection using antibodies and DNA in bio/CMOS interfaces, covering antibody-antigen interactions, DNA hybridization, and labeling techniques.
Explores the fabrication and principles of printed humidity and temperature sensors, along with organic electrochemical transistors as versatile sensors.
