The Influence of Tensile Stress on Polyaniline as Strain Sensor

In this letter, we report a first-principles study to investigate the influence of tensile stress on HCl-doped emeraldine-base polyaniline (PANI-Cl) as strain sensors by means of dispersion-corrected density functional theory computations. Our results show that up to a strain of ~17%, the strain inc...

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Bibliographic Details
Published inIEEE electron device letters Vol. 37; no. 12; pp. 1636 - 1638
Main Authors Jiang, Jun-Ke, Liang, Qiu-Hua, Meng, Rui-Shen, Yang, Qun, Sun, Xiang, Yang, Dao-Guo, Zhang, Guo-Qi, Chen, Xian-Ping
Format Journal Article
LanguageEnglish
Published New York IEEE 01.12.2016
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
band gap
Capacitive sensors
Conducting polymers
Conductivity
Density functional theory
First principles
Photonic band gap
Polyaniline
Polyanilines
Sensitivity
Sensors
Strain
strain sensor
Tensile stress
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Summary:In this letter, we report a first-principles study to investigate the influence of tensile stress on HCl-doped emeraldine-base polyaniline (PANI-Cl) as strain sensors by means of dispersion-corrected density functional theory computations. Our results show that up to a strain of ~17%, the strain increases linearly with the tensile stress. The analysis of the band gap changes and the density of states variations at Fermi level with tensile stress provide insight into the role that the tensile stress plays in affecting the conductivity of PANI-Cl. The sensitivity of PANI-Cl as strain sensors is also calculated, which show a stress dependence. We hope that our findings may open new opportunities in fabricating conducting polymer-based strain sensors.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2016.2614702