研究者業績

大坂 藍

オオサカ アイ  (Ai Osaka)

基本情報

所属
兵庫県立大学 大学院 工学研究科 助教
大阪大学 産業科学研究所 招聘教員
学位
博士(工学)(2017年3月 大阪大学)

J-GLOBAL ID
202001011805920660
researchmap会員ID
R000008029

論文

 41
  • Seiji Nakashima, Koji Kimura, Naohisa Happo, Artoni Kevin R. Ang, Yuta Yamamoto, Halubai Sekhar, Ai I. Osaka, Koichi Hayashi, Hironori Fujisawa
    Scientific Reports 14(1) 2024年12月  査読有り
    A intermediate multidomain state and large crystallographic tilting of 1.78° for the (hh0)pc planes of a (001)pc-oriented single-domain Mn-doped BiFeO3 (BFMO) thin film were found when an electric field was applied along the [110]pc direction. The anomalous crystallographic tilting was caused by ferroelastic domain switching of the 109° domain switching. In addition, ferroelastic domain switching occurred via an intermediate multidomain state. To investigate these switching dynamics under an electric field, we used in situ fluorescent X-ray induced Kossel line pattern measurements with synchrotron radiation. In addition, in situ inverse X-ray fluorescence holography (XFH) experiments revealed that atomic displacement occurred under an applied electric field. We attributed the atomic displacement to crystallographic tilting induced by a converse piezoelectric effect. Our findings provide important insights for the design of piezoelectric and ferroelectric materials and devices.
  • Michihiro Yamada, Shota Suzuki, Ai I. Osaka, Kazuaki Sumi, Takahiro Inoue, Azusa N. Hattori, Shinya Yamada, Kentarou Sawano, Marwan Dhamrin, Kohei Hamaya
    Materials Science in Semiconductor Processing 174 2024年5月  査読有り
    For high-performance spintronic applications with Co-based Heusler alloys, we explore Si1−xGex(111) grown by liquid phase epitaxy (LPE) with Al–Ge mixed paste, where x is the Ge content. By annealing the screen printed Al–Ge paste on a Si(111) substrate, a continuous Si1−xGex(111) layer with a smooth interface between the Si1−xGex layer and Si substrate is epitaxially grown. The surface with residual paste is polished and treated by chemical mechanical polishing and a catalyst referred etching (CARE) process, resulting in a reduction of the root-mean-square roughness to 0.52 nm over a large-scale area. After the surface treatments of the LPE-Si1−xGex, we can obtain Si0.93Ge0.07(111) to epitaxially grow one of the Co-based Heusler alloys, Co2FeSi. The magnetic properties and intermixing at the Co2FeSi/LPE-Si0.93Ge0.07(111) interface are consistent with those at the Co2FeAl0.5Si0.5/Si(111) and the Co2FeAl0.5Si0.5/Ge(111) interfaces. The Al–Ge-paste-induced LPE-Si1−xGex(111) and the CARE process for the surface are quite effective for the growth of Co-based Heusler alloys in future SiGe-based spintronic devices.
  • D. Toh, K. Kayao, R. Ohnishi, A. I. Osaka, K. Yamauchi, Y. Sano
    AIP Advances 2023年9月1日  査読有り
  • Umar Sidik, Azusa N. Hattori, Hao-Bo Li, Shin Nonaka, Ai I. Osaka, Hidekazu Tanaka
    Applied Physics Express 16(1) 014001-014001 2023年1月1日  査読有り
    Abstract We investigate resistance switching in proton-memristive NdNiO3 film devices via the diffusional migration of a proton dopant by using electric field control. Lattice strain is found to play a significant role in determining proton migration within NdNiO3 thin film. Compressive strain can accelerate the migration, resulting in a switching efficiency of 28.22% which is significantly higher than 0.21% on a tensile-strained device. The results demonstrate the significance of strain engineering and will guide the development of the design of multifunctional perovskite devices for emerging iontronics memory and computing applications.
  • Ken Hattori, Yuya Sakai, Liliany N. Pamasi, Aydar Irmikimov, Takaaki Higashi, HaoBang Yang, XiaoQian Shi, FangZhun Guo, Ai I. Osaka, Hidekazu Tanaka, Takushi Iimori, Fumio Komori, Azusa N. Hattori
    e-Journal of Surface Science and Nanotechnology 20(4) 214-220 2022年7月28日  査読有り
    The creation of three-dimensional (3D) geometrical shapes with atomically ordered surfaces and the investigation of their physical properties are major steps contributing to the development of a new paradigm in surface science. We produced a 3D-patterned Si sample with atomically flat and reconstructed {111} facet surfaces, and investigated its structural and physical properties. To apply the conventional techniques in surface science to 3D samples with various oriented surfaces, instead of two-dimensional planar samples, an appropriate relationship between the crystallographic surface ordering on the 3D-archi-tected surfaces and the angle-resolved photoelectron spectroscopy (ARPES) setup considering the configuration in 3D space is indispensable. The distinctive and complex low-energy electron diffraction (LEED) patterns reflecting the 3D-arranged facet surfaces showed the realization of atomically reconstructed facet surfaces on 3D-patterned Si. Surface states of the 3D-patterned Si{111} surfaces are mapped by ARPES by considering the 3D geometrical relationship. The selection of the appropriate alignment of the incident electron beam (light) for the target surfaces allows the clear observation of the band dispersion from the produced {111}7×7 facet surfaces in 3D space. Our demonstration of accessibility of ARPES technique could provide useful guidelines for new methodologies, giving a fundamental understanding of 3D-shape-induced novel functionalities.

MISC

 39

講演・口頭発表等

 8

所属学協会

 3

共同研究・競争的資金等の研究課題

 7

産業財産権

 4