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      KCI등재 SCIE SCOPUS

      Non-piezoelectric effects in piezoresponse force microscopy

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      https://www.riss.kr/link?id=A107484452

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      <P>Piezoresponse force microscopy (PFM) has been used extensively for exploring nanoscale ferro/piezo-electric phenomena over the past two decades. The imaging mechanism of PFM is based on the detection of the electromechanical (EM) response induced by the inverse piezoelectric effect through the cantilever dynamics of an atomic force microscopy. However, several non-piezoelectric effects can induce additional contributions to the EM response, which often lead to a misinterpretation of the measured PFM response. This review aims to summarize the non-piezoelectric origins of the EM response that impair the interpretation of PFM measurements. We primarily discuss two major non-piezoelectric origins, namely, the electrostatic effect and electrochemical strain. Several approaches for differentiating the ferroelectric contribution from the EM response are also discussed. The review suggests a fundamental guideline for the proper utilization of the PFM technique, as well as for achieving a reasonable interpretation of observed PFM responses. (C) 2016 Elsevier B.V. All rights reserved.</P>
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      <P>Piezoresponse force microscopy (PFM) has been used extensively for exploring nanoscale ferro/piezo-electric phenomena over the past two decades. The imaging mechanism of PFM is based on the detection of the electromechanical (EM) response ind...

      <P>Piezoresponse force microscopy (PFM) has been used extensively for exploring nanoscale ferro/piezo-electric phenomena over the past two decades. The imaging mechanism of PFM is based on the detection of the electromechanical (EM) response induced by the inverse piezoelectric effect through the cantilever dynamics of an atomic force microscopy. However, several non-piezoelectric effects can induce additional contributions to the EM response, which often lead to a misinterpretation of the measured PFM response. This review aims to summarize the non-piezoelectric origins of the EM response that impair the interpretation of PFM measurements. We primarily discuss two major non-piezoelectric origins, namely, the electrostatic effect and electrochemical strain. Several approaches for differentiating the ferroelectric contribution from the EM response are also discussed. The review suggests a fundamental guideline for the proper utilization of the PFM technique, as well as for achieving a reasonable interpretation of observed PFM responses. (C) 2016 Elsevier B.V. All rights reserved.</P>

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