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Enhanced piezoelectric properties of vertically aligned single-crystalline NKN nano-rod arrays.


ABSTRACT: Piezoelectric materials capable of converting between mechanical and electrical energy have a great range of potential applications in micro- and nano-scale smart devices; however, their performance tends to be greatly degraded when reduced to a thin film due to the large clamping force by the substrate and surrounding materials. Herein, we report an effective method for synthesizing isolated piezoelectric nano-materials as means to relax the clamping force and recover original piezoelectric properties of the materials. Using this, environmentally friendly single-crystalline NaxK1-xNbO3 (NKN) piezoelectric nano-rod arrays were successfully synthesized by conventional pulsed-laser deposition and demonstrated to have a remarkably enhanced piezoelectric performance. The shape of the nano-structure was also found to be easily manipulated by varying the energy conditions of the physical vapor. We anticipate that this work will provide a way to produce piezoelectric micro- and nano-devices suitable for practical application, and in doing so, open a new path for the development of complex metal-oxide nano-structures.

SUBMITTER: Kang MG 

PROVIDER: S-EPMC4650816 | biostudies-other | 2015

REPOSITORIES: biostudies-other

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Enhanced piezoelectric properties of vertically aligned single-crystalline NKN nano-rod arrays.

Kang Min-Gyu MG   Oh Seung-Min SM   Jung Woo-Suk WS   Moon Hi Gyu HG   Baek Seung-Hyub SH   Nahm Sahn S   Yoon Seok-Jin SJ   Kang Chong-Yun CY  

Scientific reports 20150508


Piezoelectric materials capable of converting between mechanical and electrical energy have a great range of potential applications in micro- and nano-scale smart devices; however, their performance tends to be greatly degraded when reduced to a thin film due to the large clamping force by the substrate and surrounding materials. Herein, we report an effective method for synthesizing isolated piezoelectric nano-materials as means to relax the clamping force and recover original piezoelectric pro  ...[more]

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