T. Zoumpoulidis, T. Prodromakisy, H. V. van Zeijl, K. Michelakisy, M. Bartek, C. Toumazouy, R. Dekkerz
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引用次数: 6
摘要
介绍了将离子敏感场效应管(ISFET)器件的二维阵列渲染成可拉伸和生物相容的系统,并在生物医学成像仪中应用的技术。包含ISFET器件的刚性硅段通过带有嵌入式金属轨道的柔性对二甲苯梁进行机械和电气连接,用于信号和功率分配。这项技术的关键是使用生物相容性的聚对二甲苯聚合物作为可拉伸互连梁的结构元件,以及整个系统的封装。在制备的ISFET器件上成功地应用了局部激光烧蚀聚对二甲苯涂层,暴露出离子敏感的ISFET栅极,产生nA范围内的泄漏电流。ISFET器件采用定制的2 μ m CMOS工艺制造。isfet成功地与CMOS器件并排处理,以验证其兼容性。
Stretchable array of ISFET devices for applications in biomedical imagers
Technologies for rendering of 2D arrays of ISFET (Ion Sensitive FET) devices into stretchable and biocompatible systems with applications in biomedical imagers are presented. Rigid silicon segments containing the ISFET devices are mechanically and electrically connected through flexible parylene beams with embedded metal tracks for signal and power distribution. Key in this technology is the use of biocompatible parylene polymer both as a structural element for the stretchable-interconnect beams, as well as for the overall system encapsulation. Local laser ablation of the parylene coating is successfully applied on the fabricated ISFET devices to expose the ion-sensitive ISFET gates resulting in a leakage current in the nA range. The ISFET devices are fabricated using a custom 2 µm CMOS process. ISFETS are processed successfully side by side with CMOS devices to verify their compatibility.
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