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J-GLOBAL ID:201501084239956550   Update date: Nov. 19, 2024

UCHIDA KAZUYUKI

UCHIDA KAZUYUKI
Affiliation and department:
Kyoto Sangyo University Faculty of Science Department of Physics

About Kyoto Sangyo University Faculty of Science Department of Physics


Job title: Professor
Research field  (3): Thin-film surfaces and interfaces ,  Nanomaterials ,  Nanostructure physics
Research keywords  (2): 第一原理計算 ,  ナノサイエンス
Research theme for competitive and other funds  (7):
  • 2024 - 2027 Si結晶上のIn原子層における共有結合型のモアレ超構造:超大規模第一原理計算で実証
  • 2015 - 2019 「モアレ」を利用した物性制御の第一原理的研究(研究代表者)
  • 2015 - 2017 格子振動の非調和効果に関する第一原理的予測精度と計算効率の向上(研究分担者)
  • 2010 - 2015 Density-Functional Approach to Atomic and Electronic Structures and their Dynamics in Nano-Structures
  • 2008 - 2011 ナノ物質の電子構造とキャパシタンス(研究代表者)
Show all
Papers (4):
  • Kazyuyuki Uchida, Jun-Ichi Iwata, Yu-ichiro Matsushita. A New Superstructure Model of the Si(111)-r7xr3-In Surface. Journal of the Physical Society of Japan. 2024. 93. 7. 074601
  • Taito Shimizu, Daiki Kamihara, Kazuyuki Uchida. Atomic Structures of Multiply-Folded Graphene Layers on Flat Substrates. Journal of the Physical Society of Japan. 2023. 92. 7. 074602
  • Daiki Kamihara, Taito Shimizu, Kazuyuki Uchida. "Discovery of Peculiar Electronic Structures of Decavacancy V10 in Silicon Crystal". Journal of the Physical Society of Japan. 2022. 91. 064709
  • Kazuyuki Uchida. "Energetics for Twisted Bilayer of Circular Graphene Flake". Journal of the Physical Society of Japan. 2021. 90. 044602
MISC (1):
  • "Can a Node-Less Wave Function Have Higher Energy than Node-Full Ones?". JPS Hot Topics 2, 032. 2022
Lectures and oral presentations  (6):
  • Si(111)-r7xr3-In表面がモアレ超構造を作ったとき,APRESとSTM像はどうなるか?
    (日本物理学会 2024)
  • Peculiar Electronic Structure of Decavacancy V<SUB>10</SUB> in Si Crystal
    (American Physical Society, March Meeting 2024 2024)
  • グラフェンの多重折りたたみ構造
    (日本物理学会 2023)
  • Multiple Folding of Graphene Layers on Flat Substrates
    (2023)
  • Si結晶中の10原子空孔の特異な電子構造
    (応用物理学会 2023)
more...
Awards (2):
  • 2022 - Physical Society of Japan Editor's Choice Discovery of Peculiar Electronic Structures of Decavacancy V10 in Silicon Crystal
  • 2005 - 4-th International Symposium on Surface Science and Nanotechnology (ISSS-4) Best Poster Prize First-Principles Study of Field-Effect Doping in Nano-Scale Systems by the Enforced Fermi-Energy Difference Method
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