滝沢研究室
立命館大学SRセンター(上図)の放射光を用い、原子軌道状態を制御した励起により、機能性材料の研究を行います。
2018年度研究室メンバー
准教授
滝沢優
助教
光原圭
D1
伊原諒
M2
青木駿尭
髙岡航大
M1
斉藤男
疋田祐介
八木健
柚山大地
B4
井手和真
河地涼
田中健之介
辻内愛花
中西真実
早川慶
研究室の発表
  1. Kei Mitsuhara, Daichi Yuyama, Takeru Yagi, and Masaru Takizawa: "The structural property change of SrTiO3(001) surface by thermal treatment", International Workshop on Trends in Advanced Spectroscopy in Materials Science
  2. Takeru Yagi, Daichi Yuyama, Toshitaka Aoki, Kei Mitsuhara, and Masaru Takizawa: "Electronic state analysis of Cu nanoparticles on SrTiO3(001)", International Workshop on Trends in Advanced Spectroscopy in Materials Science
  3. Ryo Ihara, Kei Mitsuhara, and Masaru Takizawa: "Electronic states analysis of Li metal by photoelectron spectroscopy", International Workshop on Trends in Advanced Spectroscopy in Materials Science
  4. Toshitaka Aoki, Takeru Yagi, Daichi Yuyama, Kei Mitsuhara, and Masaru Takizawa: "Electronic state modification of Cu nanoparticles on TiO2(110): Effect of oxygen exposure", International Workshop on Trends in Advanced Spectroscopy in Materials Science
  5. Daichi Yuyama, Kei Mitsuhara, and Masaru Takizawa: "Polarization-dependent X-ray absorption spectroscopy on rutile TiO2(110)", International Workshop on Trends in Advanced Spectroscopy in Materials Science
  6. Kota Takaoka, Shiro Entani, Seiji Sakai, Kei Mitsuhara, and Masaru Takizawa: "Chemical state analysis of oxidizing graphene on porous alumina", International Workshop on Trends in Advanced Spectroscopy in Materials Science
  7. 光原圭、柚山大地、八木健、青木駿尭、滝沢優:「種々の表面処理によるSrTiO3(001)の表面構造特性の変化」、『2018年 第79回応用物理学会秋季学術講演会』
  8. 疋田祐介、光原圭、滝沢優:「放射光光電子分光法によるLi3+xV1-xSixO4の電子状態分析」、『日本物理学会 2018年秋季大会』
  9. 伊原諒、光原圭、滝沢優:「放射光光電子分光を利用した金属リチウムの表面分析」、『日本物理学会 2018年秋季大会』
  10. 髙岡航大、圓谷史郎、境誠司、光原圭、滝沢優:「多孔質アルミナ基板上の酸化グラフェンの化学状態分析」、『日本物理学会 2018年秋季大会』
  11. 斉藤男、滝沢優、光原圭、田中武司:「紫外線励起研磨されたダイヤモンドの化学状態分析」、『日本物理学会 2018年秋季大会』
  12. 柚山大地、光原圭、滝沢優:「Rutile TiO2(110)におけるX線吸収分光の偏光依存性」、『日本物理学会 2018年秋季大会』
  13. 八木健、柚山大地、青木駿尭、光原圭、滝沢優:「SrTiO3(001)上に担持したCuナノ粒子の電子状態分析」、『日本物理学会 2018年秋季大会』
  14. Kota Takaoka, Shiro Entani, Seiji Sakai, Kei Mitsuhara, and Masaru Takizawa: "Chemical and Electronic State Analyses of Oxidizing Graphene", e-J. Surf. Sci. Nanotech. 16, 320-323 (2018).
  15. Takeru Yagi, Kei Mitsuhara, and Masaru Takizawa: "Chemical State Analysis of Cu Nanoparticles on MgO (001)", MEMOIRS OF THE SR CENTER RITSUMEIKAN UNIVERSITY No.20 p.41 (2018).
  16. Dan Saito, Akihiro Hata, Kei Mitsuhara, Masaru Takizawa, and Takeshi Tanaka: "Chemical state analysis of diamond surfaces polished under ultraviolet-ray excitation", MEMOIRS OF THE SR CENTER RITSUMEIKAN UNIVERSITY No.20 p.40 (2018).
  17. Daichi Yuyama, Kei Mitsuhara, and Masaru Takizawa: "Analysis of interstitial Ti atoms formed in rutile TiO2(110)", MEMOIRS OF THE SR CENTER RITSUMEIKAN UNIVERSITY No.20 p.39 (2018).
  18. Kota Takaoka, Shiro Entani, Seiji Sakai, Kei Mitsuhara, and Masaru Takizawa: "Chemical state analysis of oxidizing graphene on porous alumina", MEMOIRS OF THE SR CENTER RITSUMEIKAN UNIVERSITY No.20 p.38 (2018).
  19. Yusuke Hikida, Yousuke Kishimoto, Kei Mitsuhara, and Masaru Takizawa: "Electronic state analysis of Li3+xV1-xSixO4", MEMOIRS OF THE SR CENTER RITSUMEIKAN UNIVERSITY No.20 p.37 (2018).
  20. Ryo Ihara, Kei Mitsuhara and Masaru Takizawa: "Electronic state analysis of Li metal by photoelectron spectroscopy", MEMOIRS OF THE SR CENTER RITSUMEIKAN UNIVERSITY No.20 p.36 (2018).
  21. Toshitaka Aoki, Kei Mitsuhara, and Masaru Takizawa: "Growth mode analysis of Cu nanoparticles on rutile TiO2(110)", MEMOIRS OF THE SR CENTER RITSUMEIKAN UNIVERSITY No.20 pp.13-15 (2018).
  22. Masaru Takizawa, Akihiro Hata, Kei Mitsuhara, and Takeshi Tanaka: "Chemical State Modification of 4H-SiC by Ultraviolet-Ray Aided Machining", e-J. Surf. Sci. Nanotech. 16, 283-285 (2018).
  23. Toshitaka Aoki, Kei Mitsuhara, and Masaru Takizawa: "Growth Mode Analysis of Cu Nanoparticles on Rutile TiO2(110)", e-J. Surf. Sci. Nanotech. 16, 225-228 (2018).
  24. Hidetaka Watanuki, Kei Mitsuhara, and Masaru Takizawa: "Molecular Orientation Analysis of a C8-BTBT Thin Film Grown under an External Temperature Gradient", e-J. Surf. Sci. Nanotech. 16, 79-83 (2018).
  25. 過去の研究室の発表も表示/非表示