Hydrogel-based piezoresistive pH sensors: Modeling, simulation and experimental verification

被引:0
|
作者
Trinh, Q. -Thong [1 ]
Guenther, M. [1 ]
Sorber, J. [1 ]
Gerlach, G. [1 ]
机构
[1] Tech Univ Dresden, Inst Solid State Elect, IFE, Helmholtzstr 18, D-01062 Dresden, Germany
来源
ESTC 2006: 1ST ELECTRONICS SYSTEMINTEGRATION TECHNOLOGY CONFERENCE, VOLS 1 AND 2, PROCEEDINGS | 2006年
关键词
D O I
暂无
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
This paper presents the investigations of a novel type of piezoresistive pH sensors exploiting the chemomechanical energy conversion due to PVA/PAA hydrogel swelling. The sensor structure consists of three parts including a commercial piezoresistive pressure sensor chip, a hydrogel layer, and a rigid grid. The sensor behaviour comprising membrane deflection, membrane stress and output voltage due to the hydrogel swelling has been calculated by finite element method using ANSYS software. It has also been determined experimentally and was compared with those obtained by simulation. A relatively good agreement between caculated and measured results could be achieved.
引用
收藏
页码:1061 / +
页数:3
相关论文
共 50 条
  • [1] Design, Simulation and Experimental Characteristics of Hydrogel-based Piezoresistive pH Sensors
    Thong Quang Trinh
    Sorber, Jorge
    Gerlach, Gerald
    PHYSICS AND ENGINEERING OF NEW MATERIALS, 2009, 127 : 287 - +
  • [2] Hydrogel-based piezoresistive pH sensors: Design, simulation and output characteristics
    Trinh, Quang Thong
    Gerlach, Gerald
    Sorber, Joerg
    Arndt, Karl-Friedrich
    SENSORS AND ACTUATORS B-CHEMICAL, 2006, 117 (01): : 17 - 26
  • [3] Piezoresistive Hydrogel-Based Sensors for the Detection of Ammonia
    Erfkamp, Jan
    Guenther, Margarita
    Gerlach, Gerald
    SENSORS, 2019, 19 (04)
  • [4] Review on hydrogel-based pH sensors and microsensors
    Richter, Andreas
    Paschew, Georgi
    Klatt, Stephan
    Lienig, Jens
    Arndt, Karl-Friedrich
    Adler, Hans-Juergen P.
    SENSORS, 2008, 8 (01) : 561 - 581
  • [5] Numerical and Analytical Modeling to Determine Performance Tradeoffs in Hydrogel-Based pH Sensors
    Dak, Piyush
    Alam, Muhammad Ashraful
    IEEE TRANSACTIONS ON ELECTRON DEVICES, 2016, 63 (06) : 2524 - 2530
  • [6] Hydrogel-based piezoresistive biochemical microsensors
    Guenther, Margarita
    Schulz, Volker
    Gerlach, Gerald
    Wallmersperger, Thomas
    Solzbacher, Florian
    Magda, Jules J.
    Tathireddy, Prashant
    Lin, Genyao
    Orthner, Michael P.
    ELECTROACTIVE POLYMER ACTUATORS AND DEVICES (EAPAD) 2010, 2010, 7642
  • [7] Miniaturized force-compensated hydrogel-based pH sensors
    Deng, Kangfa
    Bellmann, Christian
    Fu, Yangxi
    Rohn, Mathias
    Guenther, Margarita
    Gerlach, Gerald
    SENSORS AND ACTUATORS B-CHEMICAL, 2018, 255 : 3495 - 3504
  • [8] Hydrogel-based piezoresistive pH sensors: Investigations using FT-IR attenuated total reflection spectroscopic Imaging
    Sorber, Joerg
    Steiner, Gerald
    Schulz, Volker
    Guenther, Margarita
    Gerlach, Gerald
    Salzer, Reiner
    Arndt, Karl-Friedrich
    ANALYTICAL CHEMISTRY, 2008, 80 (08) : 2957 - 2962
  • [9] Hydrogel-based piezoresistive sensor for the detection of ethanol
    Erfkamp, Jan
    Guenther, Margarita
    Gerlach, Gerald
    JOURNAL OF SENSORS AND SENSOR SYSTEMS, 2018, 7 (01) : 219 - 226
  • [10] Numerical simulation of hydrogel-based pH-responsive biosensors in BioMEMS
    Li, H
    Yew, YK
    Lam, KY
    Ng, TY
    DTIP 2003: DESIGN, TEST, INTEGRATION AND PACKAGING OF MEMS/MOEMS 2003, 2003, : 218 - 222
12345