In situ studies of nanoscale electromechanical behavior of nacre under flexural stresses using band excitation PFM

Tao Li; Lei Chen; Kaiyang Zeng

doi:10.1016/j.actbio.2013.01.003

In situ studies of nanoscale electromechanical behavior of nacre under flexural stresses using band excitation PFM

Tao Li
, Lei Chen
, Kaiyang Zeng

National University of Singapore
Agency for Science, Technology and Research, Singapore

Research output: Contribution to journal › Article › peer-review

15 Scopus citations

Abstract

In this paper, we have studied the electromechanical coupling behaviors of nacre under non-destructive flexural stresses. Band excitation piezoresponse force microscopy is used as the primary tool to characterize the piezoelectric properties of nacre. This method can differentiate various constituents in nacre at the nanoscale and track their in situ responses under tensile and compressive stresses. The local ferroelectric hysteresis behaviors of nacre are also studied. Based on the hysteresis loops observed under different stress states, various phenomena, including the stress-induced internal field and energy loss, are revealed in this study.

Original language	English
Pages (from-to)	5903-5912
Number of pages	10
Journal	Acta Biomaterialia
Volume	9
Issue number	4
DOIs	https://doi.org/10.1016/j.actbio.2013.01.003
State	Published - Apr 2013
Externally published	Yes

Keywords

Band excitation
Ferroelectric
Flexural stress
Nacre
Piezoresponse force microcopy

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10.1016/j.actbio.2013.01.003

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title = "In situ studies of nanoscale electromechanical behavior of nacre under flexural stresses using band excitation PFM",

abstract = "In this paper, we have studied the electromechanical coupling behaviors of nacre under non-destructive flexural stresses. Band excitation piezoresponse force microscopy is used as the primary tool to characterize the piezoelectric properties of nacre. This method can differentiate various constituents in nacre at the nanoscale and track their in situ responses under tensile and compressive stresses. The local ferroelectric hysteresis behaviors of nacre are also studied. Based on the hysteresis loops observed under different stress states, various phenomena, including the stress-induced internal field and energy loss, are revealed in this study.",

keywords = "Band excitation, Ferroelectric, Flexural stress, Nacre, Piezoresponse force microcopy",

author = "Tao Li and Lei Chen and Kaiyang Zeng",

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AU - Li, Tao

AU - Chen, Lei

AU - Zeng, Kaiyang

PY - 2013/4

Y1 - 2013/4

N2 - In this paper, we have studied the electromechanical coupling behaviors of nacre under non-destructive flexural stresses. Band excitation piezoresponse force microscopy is used as the primary tool to characterize the piezoelectric properties of nacre. This method can differentiate various constituents in nacre at the nanoscale and track their in situ responses under tensile and compressive stresses. The local ferroelectric hysteresis behaviors of nacre are also studied. Based on the hysteresis loops observed under different stress states, various phenomena, including the stress-induced internal field and energy loss, are revealed in this study.

AB - In this paper, we have studied the electromechanical coupling behaviors of nacre under non-destructive flexural stresses. Band excitation piezoresponse force microscopy is used as the primary tool to characterize the piezoelectric properties of nacre. This method can differentiate various constituents in nacre at the nanoscale and track their in situ responses under tensile and compressive stresses. The local ferroelectric hysteresis behaviors of nacre are also studied. Based on the hysteresis loops observed under different stress states, various phenomena, including the stress-induced internal field and energy loss, are revealed in this study.

KW - Band excitation

KW - Ferroelectric

KW - Flexural stress

KW - Nacre

KW - Piezoresponse force microcopy

UR - https://www.scopus.com/pages/publications/84875367043

U2 - 10.1016/j.actbio.2013.01.003

DO - 10.1016/j.actbio.2013.01.003

M3 - 文章

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AN - SCOPUS:84875367043

SN - 1742-7061

VL - 9

SP - 5903

EP - 5912

JO - Acta Biomaterialia

JF - Acta Biomaterialia

IS - 4

ER -

In situ studies of nanoscale electromechanical behavior of nacre under flexural stresses using band excitation PFM

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Keywords

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