Please use this identifier to cite or link to this item: https://dspace.ctu.edu.vn/jspui/handle/123456789/12245
Title: Atomic Heterointerfaces and Electrical Transportation Properties in Self-Assembled LaNiO3–NiO Heteroepitaxy
Authors: Zhu, Yuan Min
Do, Thi Hien
Tra, Vu Thanh
Yu, Rong
Chu, Ying-Hao
Zhan, Qian
Issue Date: 2018
Series/Report no.: Department of Materials Science and Engineering;p. 1-9
Abstract: Vertical nanostructure heteroepitaxy opens new opportunities for designing next-generation electronic devices due to the enthralling multifunction combi-nations and the abundant heterointerfaces manipulated effects. In this study, self-assembled heteroepitaxial thin flms, vertically aligned metallic LaNiO₃ (LNO) and semiconducting NiO with diverse heterointerfaces, are created and systematically investigated by advanced transmission electron microscopy. With the increase of LaNiO₃ content, the LaNiO3 phases present as isolated islands encircled by the connected NiO nanoplates and eventually become the continuous matrix with embedded NiO nanopillars. The atomic heterointer-face between NiO and LaNiO₃ phases is determined to be [NiO₂–LaO]LaNiO₃–LaO–[NiO]NiO, in which an extra La–O layer is enriched at the heterointerface. Besides, the formation mechanism of the heterointerface and antiphase boundaries observed in LaNiO₃ phase is discussed. The electrical transport properties at room temperature can be tuned gradually by changing the volume ratio of constituents. The correlation among the insulator-to-metal transition, the carrier types associated with transport behaviors, and the heterostructure evolutions are explored. This study offers a desirable platform to design new multifunctional electronic devices based on the oxide heterojunctions.
URI: http://dspace.ctu.edu.vn/jspui/handle/123456789/12245
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