Nanoenabled Direct Contact Interfacing of Syringe-Injectable Mesh Electronics

接口 数码产品 材料科学 接触电阻 纳米技术 可伸缩电子设备 柔性电子器件 制作 灵活性(工程) 电接点 弯曲 光电子学 电气工程 复合材料 计算机科学 工程类 图层(电子) 计算机硬件 统计 病理 医学 替代医学 数学
作者
Jung Min Lee,Guosong Hong,Dingchang Lin,Thomas G. Schuhmann,Andrew T. Sullivan,Robert D. Viveros,Hong Gyu Park,Charles M. Lieber
出处
期刊:Nano Letters [American Chemical Society]
卷期号:19 (8): 5818-5826 被引量:39
标识
DOI:10.1021/acs.nanolett.9b03019
摘要

Polymer-based electronics with low bending stiffnesses and high flexibility, including recently reported macroporous syringe-injectable mesh electronics, have shown substantial promise for chronic studies of neural circuitry in the brains of live animals. A central challenge for exploiting these highly flexible materials for in vivo studies has centered on the development of efficient input/output (I/O) connections to an external interface with high yield, low bonding resistance, and long-term stability. Here we report a new paradigm applied to the challenging case of injectable mesh electronics that exploits the high flexibility of nanoscale thickness two-sided metal I/O pads that can deform and contact standard interface cables in high yield with long-term electrical stability. First, we describe the design and facile fabrication of two-sided metal I/O pads that allow for contact without regard to probe orientation. Second, systematic studies of the contact resistance as a function of I/O pad design and mechanical properties demonstrate the key role of the I/O pad bending stiffness in achieving low-resistance stable contacts. Additionally, computational studies provide design rules for achieving high-yield multiplexed contact interfacing in the case of angular misalignment such that adjacent channels are not shorted. Third, the in vitro measurement of 32-channel mesh electronics probes bonded to interface cables using the direct contact method shows a reproducibly high yield of electrical connectivity. Finally, in vivo experiments with 32-channel mesh electronics probes implanted in live mice demonstrate the chronic stability of the direct contact interface, enabling consistent tracking of single-unit neural activity over at least 2 months without a loss of channel recording. The direct contact interfacing methodology paves the way for scalable long-term connections of multiplexed mesh electronics neural probes for neural recording and modulation and moreover could be used to facilitate a scalable interconnection of other flexible electronics in biological studies and therapeutic applications.

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