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Enhancement of the anisotropic photocurrent in ferroelectric oxides by strain gradients
Chu, Kanghyun,Jang, Byung-Kweon,Sung, Ji Ho,Shin, Yoon Ah,Lee, Eui-Sup,Song, Kyung,Lee, Jin Hong,Woo, Chang-Su,Kim, Seung Jin,Choi, Si-Young,Koo, Tae Yeong,Kim, Yong-Hyun,Oh, Sang-Ho,Jo, Moon-Ho,Yang, Nature Publishing Group 2015 Nature nanotechnology Vol.10 No.11
The phase separation of multiple competing structural/ferroelectric phases has attracted particular attention owing to its excellent electromechanical properties. Little is known, however, about the strain-gradient-induced electronic phenomena at the interface of competing structural phases. Here, we investigate the polymorphic phase interface of bismuth ferrites using spatially resolved photocurrent measurements, present the observation of a large enhancement of the anisotropic interfacial photocurrent by two orders of magnitude, and discuss the possible mechanism on the basis of the flexoelectric effect. Nanoscale characterizations of the photosensitive area through position-sensitive angle-resolved piezoresponse force microscopy and electron holography techniques, in conjunction with phase field simulation, reveal that regularly ordered dipole-charged domain walls emerge. These findings offer practical implications for complex oxide optoelectronics.
Application of Strcutral Health Monitoring in Structual Engineering for Buildings
Ji Young, Kim,Hobeom, Song,Kanghyun, Park,Kwangryang, Chung Council on Tall Building and Urban Habitat Korea 2022 International journal of high-rise buildings Vol.11 No.3
Installation of Structural Health Monitoring (SHM) system is a legal obligation for high-rise buildings over 200 m or 50-floor high in South Korea. CNP Dongyang has developed key technologies for SHM system design, installation, and data analyzing. Also, CNP Dongyang has applied SHM technology to a plenty of South Korea's representative high-rise buildings. The SHM technology, also, could be used in safety management of construction phase, evaluation of structural performance, etc. In this paper, state of the art SHM technologies and their application examples are introduced to give insight for future research and practical use of SHM.