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Simultaneous monitoring of electrophysiology and magnetic resonance imaging (MRI) could guide the innovative diagnosis and treatment of various neurodegenerative diseases that are previously impossible. However, this technique is difficult because the existing metal‐based implantable neural interface for electrophysiology is not free from signal distortions from its intrinsic magnetic susceptibility...
Low‐Cost Flexible Electronics
Multiple generations of ultra‐thin crystalline silicon nano/micro‐membrane sheets with high areal density can be formed from a single <111> mother wafer using an unusual anisotropic etching technique, which can be utilized for various electronic applications in flexible electronic devices. More details can be found in article number 2302597 by Ki Jun Yu, John A...
Ultrathin crystalline silicon is widely used as an active material for high‐performance, flexible, and stretchable electronics, from simple passive and active components to complex integrated circuits, due to its excellent electrical and mechanical properties. However, in contrast to conventional silicon wafer‐based devices, ultrathin crystalline silicon‐based electronics require an expensive and...