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Combination of optogenetics and pharmacology represents a unique approach to dissect neural circuitry with high specificity and versatility. However, conventional tools available to perform these experiments, such as optical fibers and metal cannula, are limited due to their tethered operation and lack of biomechanical compatibility. To address these issues, a miniaturized, battery‐free, soft optofluidic...
In article number 1702479, John A. Rogers, Jae‐Woong Jeong, and co‐workers develop a battery‐free, wireless optofluidic neural system by integrating a multimodal neural probe consisting of micro‐scale inorganic light‐emitting diodes, and a microfluidic drug delivery system with a stretchable radiofrequency energy‐scavenging circuit, into an ultracompact, lightweight and soft platform. The miniature...
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