Battery-free, lightweight, injectable microsystem for in vivo wireless pharmacology and optogenetics | Proceedings of the National Academy of Sciences thumbnail
Battery-free, lightweight, injectable microsystem for in vivo wireless pharmacology and optogenetics | Proceedings of the National Academy of Sciences
www.pnas.org
gas bubbles generated during the electrochemical pumping reduce the contact area between the electrolyte solution and the interdigitated electrodes, thereby causing a decrease in applied current and, therefore, a mismatch between experiment and modeling at higher applied currents In addition to impr
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  • gas bubbles generated during the electrochemical pumping reduce the contact area between the electrolyte solution and the interdigitated electrodes, thereby causing a decrease in applied current and, therefore, a mismatch between experiment and modeling at higher applied currents
  • In addition to improving the technology for optogenetic and pharmacological studies, there is a growing interest in combining different or multiple methodologies for neuronal circuit manipulation. For example, optogenetics and fiber photometry or miniaturized microscopy combine light and genetics to both control and monitor neurons in vivo

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