Fabrication of Flexible Neural Probes With Built-In Microfluidic Channels by Thermal Bonding of Parylene

Ziegler D.; Suzuki T.; Takeuchi S.

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Fabrication of Flexible Neural Probes With Built-In Microfluidic Channels by Thermal Bonding of Parylene

机译：聚对二甲苯的热键合制备具有内置微流体通道的柔性神经探针

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This paper describes the fabrication technology and characterization of Parylene neural probes containing fluidic channels for delivery of small amounts of drugs into biological tissue as well as neural recording. We present a first attempt to realize such neural probes by micromolding and thermal bonding of Parylene. Compared to the common fabrication method, where a sacrificial photoresist layer is sandwiched between two Parylene layers, the major advantages of this process are, that the time consuming photoresist dissolution is omitted, and that the adhesion between the Parylene layers could be improved. The electrodes were characterized by impedance measurements, in which an impedance sufficiently low for neural recording was observed. Fluidic injection experiments with the microchannel have shown that nanoliter volumes can be injected

机译：本文介绍了聚对二甲苯神经探针的制造技术和表征，该探针包含用于将少量药物输送到生物组织以及进行神经记录的流体通道。我们提出了通过聚对二甲苯的微成型和热粘合来实现这种神经探针的首次尝试。与在两个聚对二甲苯层之间夹有牺牲性光致抗蚀剂层的常规制造方法相比，该方法的主要优点是省去了耗时的光致抗蚀剂溶解，并且可以改善聚对二甲苯层之间的粘附性。通过阻抗测量来表征电极，其中观察到对于神经记录而言足够低的阻抗。微通道的流体注射实验表明，可以注射纳升的体积

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来源
《Journal of Microelectromechanical Systems》 |2006年第2006期|p.1477-1482|共6页
作者
Ziegler D.; Suzuki T.; Takeuchi S.;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类自动化系统;微电子学、集成电路（IC）;
关键词
adhesion; biological tissues; drugs; electric impedance measurement; microelectrodes; microfluidics; moulding; photoresists; polymers; probes; adhesion; biological tissue; built-in microfluidic channels; impedance measurement; microchannel; micromolding; parylene neural;

机译：粘附力;生物组织;药物;电阻抗测量;微电极;微流体;模制;光致抗蚀剂;聚合物;探针;粘附;生物组织;内置微流体通道;阻抗测量;微通道;微成型;聚对二甲苯神经;

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专利

1. Fabrication of Flexible Neural Probes With Built-In Microfluidic Channels by Thermal Bonding of Parylene [J] . Ziegler D., Suzuki T., Takeuchi S. Journal of Microelectromechanical Systems . 2006,第6期

机译：聚对二甲苯的热键合制备具有内置微流体通道的柔性神经探针
2. Parylene flexible neural probes integrated with microfluidic channels [J] . Shoji Takeuchi, D.Ziegler, Y.Yoshida, Lab on a chip . 2005,第5期

机译：聚对二甲苯柔性神经探针与微流体通道集成
3. Fabrication of flexible microelectrode arrays integrated with microfluidic channels for stable neural interfaces [J] . Gao K., Li G., Liao L., Sensors and Actuators, A. Physical . 2013,第Null期

机译：集成了微流体通道的柔性微电极阵列的制备，用于稳定的神经接口
4. FLEXIBLE PARYLENE NEURAL PROBES WITH INTEGRATED MICROFLUIDIC CHANNELS [C] . Dominik Ziegler, Takafumi Suzuki, Shoji Takeuchi uTAS (Conference) . 2004

机译：具有集成微流体通道的柔性聚酰甲苯神经探针
5. Chemical-Free Metal-PDMS Thermal Bonding in Flexible Electrode Fabrication [D] . Koh, Domin. 2019

机译：柔性电极制造中的无化学金属-PDMS热键合
6. PDMS-Parylene Hybrid Flexible Microfluidics for Real-Time Modulation of 3D Helical Inertial Microfluidics [O] . Bum-Joon Jung, Jihye Kim, Jeong-ah Kim, 2018

机译：PDMS-Parylene混合灵活的微流体可实时调制3D螺旋惯性微流体
7. Fabrication and characterization of implantable silicon neural probe with microfluidic channels [O] . Guo K, Pei WH, Li XQ, 2012

机译：具有微流体通道的可植入硅神经探针的制备与表征
8. Parylene Coated Microfluidic Components and Methods for Fabrication Thereof. [R] . Maltezos, G., Tang, H., Rokes, M., 2005

机译：聚对二甲苯涂覆的微流体组件及其制造方法。

Fabrication of Flexible Neural Probes With Built-In Microfluidic Channels by Thermal Bonding of Parylene

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