A Novel Piezoresistive MEMS Pressure Sensors Based on Temporary Bonding Technology

机译：基于临时键合技术的新型压阻MEMS压力传感器

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摘要

A miniature piezoresistive pressure sensor fabricated by temporary bonding technology was reported in this paper. The sensing membrane was formed on the device layer of an SOI (Silicon-On-Insulator) wafer, which was bonded to borosilicate glass (Borofloat 33, BF33) wafer for supporting before releasing with Cu-Cu bonding after boron doping and electrode patterning. The handle layer was bonded to another BF33 wafer after thinning and etching. Finally, the substrate BF33 wafer was thinned by chemical mechanical polishing (CMP) to reduce the total device thickness. The copper temporary bonding layer was removed by acid solution after dicing to release the sensing membrane. The chip area of the fabricated pressure sensor was of 1600 μm × 650 μm × 104 μm, and the size of a sensing membrane was of 100 μm × 100 μm × 2 μm. A higher sensitivity of 36 μV/(V∙kPa) in the range of 0–180 kPa was obtained. By further reducing the width, the fabricated miniature pressure sensor could be easily mounted in a medical catheter for the blood pressure measurement.

机译：本文报道了一种通过临时结合技术制造的微型压阻式压力传感器。感测膜形成在SOI（绝缘体上硅）晶片的器件层上，该晶片粘结到硼硅玻璃（Borofloat 33，BF33）晶片上，用于支撑，然后在硼掺杂和电极构图后通过Cu-Cu粘结释放。在减薄和蚀刻之后，将处理层粘结到另一个BF33晶片上。最后，通过化学机械抛光（CMP）来减薄衬底BF33晶片，以减小总器件厚度。切割后通过酸溶液除去铜临时粘结层以释放感测膜。所制造的压力传感器的芯片面积为1600μm×650μm×104μm，感测膜的尺寸为100μm×100μm×2μm。在0-180 kPa范围内获得了更高的灵敏度，为36μV/（V∙kPa）。通过进一步减小宽度，可以将制造的微型压力传感器容易地安装在用于测量血压的医用导管中。

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期刊名称 Sensors (Basel Switzerland)
作者
Peishuai Song; Chaowei Si; Mingliang Zhang; Yongmei Zhao; Yurong He; Wen Liu; Xiaodong Wang;
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年(卷),期 2020(20),2
年度 2020
页码 -1
总页数 10
原文格式 PDF
正文语种
中图分类
关键词
miniature; piezoresistive pressure sensor; blood pressure; temporary bonding technology;

机译：微型;压阻式压力传感器;血压;临时粘接技术;

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专利

1. A Novel Piezoresistive MEMS Pressure Sensors Based on Temporary Bonding Technology [J] . Nature reviews Cancer . 2020,第2期

机译：基于临时粘接技术的新型压阻式MEMS压力传感器
2. Analytical modeling to estimate the sensitivity of MEMS technology-based piezoresistive pressure sensor [J] . Belwanshi Vinod Journal of Computational Electronics . 2021,第1期

机译：分析模型来估算MEMS技术压阻式压力传感器的灵敏度
3. Polysilicon Piezoresistive Pressure Sensors based on MEMS Technology [J] . J AKHTAR, B B DIXIT, B D PANT, IETE Journal of Research . 2003,第6期

机译：基于MEMS技术的多晶硅压阻式压力传感器
4. Stress-free bonding technology with bondable thin glass layer for MEMS based pressure sensor [C] . Xiaodong Hu, P. Mackowiak, Yucheng Zhang, IEEE Electronics Packaging Technology Conference . 2017

机译：用于基于MEMS的压力传感器的无应力粘合技术和可粘合的薄玻璃层
5. MEMS piezoresistive pressure sensor on flexible substrate using nichrome and CNT/polyimide nanocomposites as piezoresistors. [D] . Nadvi, Gaviraj. 2010

机译：柔性基板上的MEMS压阻式压力传感器，采用镍铬合金和CNT /聚酰亚胺纳米复合材料作为压阻器。
6. MEMS based Low Cost Piezoresistive Microcantilever Force Sensor and Sensor Module [O] . H. J. Pandya, Hyun Tae Kim, Rajarshi Roy, -1

机译：基于MEMS的低成本压阻微悬臂力传感器和传感器模块
7. A Novel Piezoresistive MEMS Pressure Sensors Based on Temporary Bonding Technology [O] . Peishuai Song, Chaowei Si, Mingliang Zhang, 2020

机译：基于临时粘接技术的新型压阻式MEMS压力传感器

A Novel Piezoresistive MEMS Pressure Sensors Based on Temporary Bonding Technology

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