Literature DB >> 20161046

MEMS Electrostatic Actuation in Conducting Biological Media.

Vikram Mukundan1, Beth L Pruitt.   

Abstract

We present design and experimental implementation of electrostatic comb-drive actuators in solutions of high conductivity relevant for biological cells. The actuators are operated in the frequency range 1-10 MHz in ionic and biological cell culture media, with ionic strengths up to 150 mMoles/L. Typical displacement is 3.5 μm at an applied peak-to-peak signal of 5V. Two different actuation schemes are presented and tested for performance at high frequency. A differential drive design is demonstrated to overcome the attenuation due to losses in parasitic impedances. The frequency dependence of the electrostatic force has been characterized in media of different ionic strengths. Circuit models for the electric double layer phenomena are used to understand and predict the actuator behavior. The actuator is integrated into a planar force sensing system to measure the stiffness of cells cultured on suspended structures.

Entities:  

Year:  2009        PMID: 20161046      PMCID: PMC2746652          DOI: 10.1109/JMEMS.2009.2013398

Source DB:  PubMed          Journal:  J Microelectromech Syst        ISSN: 1057-7157            Impact factor:   2.417


  10 in total

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5.  Mechanical property characterization of mouse zona pellucida.

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7.  Reversible and repeatable linear local cell force response under large stretches.

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Journal:  Exp Cell Res       Date:  2005-04-15       Impact factor: 3.905

8.  A uniaxial bioMEMS device for quantitative force-displacement measurements.

Authors:  David B Serrell; Tammy L Oreskovic; Andrew J Slifka; Roop L Mahajan; Dudley S Finch
Journal:  Biomed Microdevices       Date:  2007-04       Impact factor: 2.838

9.  A class of low voltage, elastomer-metal 'wet' actuators for use in high-density microfluidics.

Authors:  Tushar Bansal; Meng-Ping Chang; Michel M Maharbiz
Journal:  Lab Chip       Date:  2006-12-05       Impact factor: 6.799

10.  A uniaxial bioMEMS device for imaging single cell response during quantitative force-displacement measurements.

Authors:  David B Serrell; Jera Law; Andrew J Slifka; Roop L Mahajan; Dudley S Finch
Journal:  Biomed Microdevices       Date:  2008-12       Impact factor: 2.838
  10 in total
  9 in total

1.  Impedance characterization, degradation, and in vitro biocompatibility for platinum electrodes on BioMEMS.

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Journal:  Biomed Microdevices       Date:  2015-02       Impact factor: 2.838

2.  MEMS Sensors and Microsystems for Cell Mechanobiology.

Authors:  Jagannathan Rajagopalan; M Taher A Saif
Journal:  J Micromech Microeng       Date:  2011-03       Impact factor: 1.881

3.  Integrated strain array for cellular mechanobiology studies.

Authors:  C S Simmons; J Y Sim; P Baechtold; A Gonzalez; C Chung; N Borghi; B L Pruitt
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4.  Techniques to stimulate and interrogate cell-cell adhesion mechanics.

Authors:  Ruiguo Yang; Joshua A Broussard; Kathleen J Green; Horacio D Espinosa
Journal:  Extreme Mech Lett       Date:  2017-12-07

5.  Electrothermal Microactuators With Peg Drive Improve Performance for Brain Implant Applications.

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Authors:  Vikram Mukundan; W James Nelson; Beth L Pruitt
Journal:  Biomed Microdevices       Date:  2013-02       Impact factor: 2.838

7.  MEMS-based shear characterization of soft hydrated samples.

Authors:  Gadryn C Higgs; Chelsey S Simmons; Yingning Gao; Andrew Fried; Sung-Jin Park; Cindy Chung; Beth L Pruitt
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8.  Shear-induced damped oscillations in an epithelium depend on actomyosin contraction and E-cadherin cell adhesion.

Authors:  Ehsan Sadeghipour; Miguel A Garcia; William James Nelson; Beth L Pruitt
Journal:  Elife       Date:  2018-11-14       Impact factor: 8.140

9.  Coupled Finite Element-Finite Volume Multi-Physics Analysis of MEMS Electrothermal Actuators.

Authors:  Thomas Sciberras; Marija Demicoli; Ivan Grech; Bertram Mallia; Pierluigi Mollicone; Nicholas Sammut
Journal:  Micromachines (Basel)       Date:  2021-12-22       Impact factor: 2.891
  9 in total

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