Chemical Sensors Based on Piezoresistive Cantilever Array
YU Xiao-Mei, ZHANG Da-Cheng, WANG Cong-Shun, DU Xian-Feng, WANG Xiao-Bao, RUAN Yong
Institute of Microelectronics, Peking University, Beijing 100871
Chemical Sensors Based on Piezoresistive Cantilever Array
YU Xiao-Mei;ZHANG Da-Cheng;WANG Cong-Shun;DU Xian-Feng;WANG Xiao-Bao;RUAN Yong
Institute of Microelectronics, Peking University, Beijing 100871
关键词 :
85.85.+j ,
07.07.Df ,
72.20.Fr ,
46.70.De
Abstract : U-shaped and rectangle piezoresistive cantilever arrays have been designed with the analysing results of stress, noise and sensitivity of the cantilevers. Based on silicon micromachining technology, the piezoresistive cantilevers were fabricated by using polysilicon as the piezoresistive materials. With the measurement results of noise and sensitivity, the Hooge factor is calculated to be 3 x 10-3 , the gauge factor is 27, and the minimum detectable deflection of piezoresistive cantilevers are calculated to be 1.0 nm for rectangle cantilever and 0.5 nm for the U-shaped cantilever at a 6 V bias voltage and a 1000 Hz measurement bandwidth. Using polymer-coated cantilevers as individual sensors, their responses to water vapor and ammonia were tested by measuring their output voltage signals. The measured results show that the sensor sensitivity to ammonia can reach a few ppm and the sensor responses are quick.
Key words :
85.85.+j
07.07.Df
72.20.Fr
46.70.De
出版日期: 2003-09-01
:
85.85.+j
(Micro- and nano-electromechanical systems (MEMS/NEMS) and devices)
07.07.Df
(Sensors (chemical, optical, electrical, movement, gas, etc.); remote sensing)
72.20.Fr
(Low-field transport and mobility; piezoresistance)
46.70.De
(Beams, plates, and shells)
引用本文:
YU Xiao-Mei;ZHANG Da-Cheng;WANG Cong-Shun;DU Xian-Feng;WANG Xiao-Bao;RUAN Yong. Chemical Sensors Based on Piezoresistive Cantilever Array[J]. 中国物理快报, 2003, 20(9): 1637-1640.
链接本文:
https://cpl.iphy.ac.cn/CN/
或
https://cpl.iphy.ac.cn/CN/Y2003/V20/I9/1637
[1]
YUE Rui-Feng;WU Jian-Gang;ZENG Xue-Feng;KANG Ming;LIU Li-Tian. Demonstration of Four Fundamental Operations of Liquid Droplets for Digital Microfluidic Systems Based on an
Electrowetting-on-Dielectric Actuator
[2]
SUI Xiao-Hong;PEI Wei-Hua;ZHANG Ruo-Xin;LU Lin;CHEN Hong-Da. A Micromachined SiO2 /Silicon Probe for Neural Signal Recordings
[3]
LI Ming;WANG Ming;RONG Hua;LI Hong-Pu. A Novel Analytical Approach for Multi-Layer Diaphragm-Based Optical Microelectromechanical-System Pressure Sensors
[4]
ZHANG Xing;ZHANG Qing-Guang;CAO Bing-Yang;FUJII Motoo;TAKAHASHI Koji;IKUTA Tatsuya. Experimental Studies on Thermal and Electrical Properties of Platinum Nanofilms
[5]
FANG Hua-Bin;LIU Jing-Quan;XU Zheng-Yi;DONG Lu;CHEN Di;CAI Bing-Chu;LIU Yue. A MEMS-Based Piezoelectric Power Generator for Low Frequency Vibration Energy Harvesting
[6]
WANG Wei;SHI Jia-Wei;GUO Shu-Xu;ZHANG Hong-Mei;QUAN Bao-Fu;MA Dong-Ge. Improved Performance by a Double-Insulator Layer in Organic Thin-Film Transistors
[7]
YU Jun;TANG Zhen-An;ZHANG Feng-Tian;WEI Guang-Fen;WANG Li-Ding. Investigation of a Microcalorimeter for Thin-Film Heat Capacity Measurement
[8]
S. Acar;M. Kasap;B. Y. Isik;S. Özcelik;N. Tugluoglu;S. Karadeniz. Quantitative Mobility Spectrum Analysis for Determination of Electron and Magneto Transport Properties of Te-Doped GaSb
[9]
GUI Hua-Qiao;Lü Liang;HE De-Yong;XU Jun; XIE Jian-Ping;ZHAO Tian-Peng;WANG An-Ting; MING Hai. New Laser Doppler Velocimetry with Wide Dynamic Range and Clear Directional Discrimination
[10]
ZHANG Pei-Hong;FAN Yong;WANG Fo-Chi;XIE Hua;LI Gang;LEI Qing-Quan. Conduction Current Characteristics and Carrier Mobility of Both Original and Corona-Resistant Polyimide Films
[11]
M. Kasap;S. Acar;S. Öcelik;S. Karadeniz;N. Tugluoglu. Temperature-Dependent Galvanomagnetic Measurements on Doped InSb and InAs Grown by Liquid Encapsulated Czochralski
[12]
WANG Wei;SHI Jia-Wei;LIANG Chang;ZHANG Hong-Mei;LIU Ming-Da;QUAN Bao-Fu;GUO Shu-Xu;FANG Jun-Feng;MA Dong-Ge. Ambipolar Thin-Film Field-Effect Transistor Based on Pentacene
[13]
ZENG Xue-Feng;YUE Rui-Feng;WU Jian-Gang;DONG Liang;LIU Li-Tian. Actuation and Control of Droplets by Using Electrowetting-on-Dielectric
[14]
ZHOU Ze-Bing;DONG Ying-Jie;TIAN Yu-Long;QIN Dan;LUO Jun. Excitation Frequency Effect of Differential Capacitance Transducer for Equivalence Principle Test
[15]
ZHANG Su-Mei;SHI Jia-Wei;LIU Ming-Da;LI Jing;GUO Shu-Xu;WANG Wei. Pentacene Organic-Thin-Film Field-Effect Transistors
2003, Vol. 20 
