Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Tetsuya Okuyama Last modified date:2024.07.09

Professor / Department of Collaborative Interdisciplinary Engineering Sciences / Department of Collaborative Interdisciplinary Engineering Sciences / Faculty of Engineering Sciences


Presentations
1. Matsuyama K, Motomura M, Okuyama T, Muto H, SUPERCRITICAL CO2-ASSISTED IMMOBILIZATION OF CATALITICALLY ACTIVE Pt NANOPARTICLES INSIDE THE PORES OF METAL ORGANIC FRAMEWORK, International Conference of Global Network for Innovative Technology 2016(IGNITE2016), 2016.01.
2. C12A7エレクトライド作製のためのPCS処理と還元条件の検討.
3. Kushino A, Yamamoto Y, Okuyama T, Kasai S, Development of thin semi-rigid coaxial cables as low-pass filter using bilayer structure in center conductors, The American Physical Society of Meeting, 2017.03.
4. Fluorescence property of Zr based nanoparticles synthesized by complexing agent method.
5. 錯化剤を用いて合成したZrO2ナノ粒子の蛍光特性に関する研究.
6. 有機酸錯体法を用いたC12A7の合成に関する研究.
7. K. Matsuyama, N. Tomiyasu, T. Okuyama, H. Muto, Supercritical fluid-assisted formation of Pd-Ru bimetallic nanoparticles, 8th Inter. Symp. Molecular Thermodynamics and Molecular Simulation (MTMS's18), 2018.09.
8. N. Tomiyasu, K. Matsuyama, T. Okuyama, H. Muto, Formation of highly catalytically active bimetallic nanoparticles using supercritical fluid-assisted immobilization, 第28回日本MRS年次大会, 2018.12.
9. K. Nakamura, K. Matsuyama, M. Nakashima, H. Nakashima, T. Okuyama, H. Muto, H. Sugiyama, Formation of cellulose nanofiber aerogel-Ag nanoparticle composites by supercritical CO2 drying, 第28回日本MRS年次大会, 2018.12.
10. Study on fluorescence emission of Eu-doped ZrO 2 nanoparticles.
11. M. Sonoda, Y. Obukuro, H. Einaga, T. Sugiyama, T. Okuyama, Catalytic performance of Cu/La-added ZnFe2O4 for CO oxidation, 第28回日本MRS年次大会, 2018.12.
12. Ca-Fe系複合酸化物の合成とキャラクタリゼーション.
13. 水熱合成酸化タングステンナノワイヤの形態制御.
14. Promotion of Anisotropic Crystal Growth of Hydrothermal WO3 Nanowires Based on Nucleation Theory and Construction of Single Nanowire Electronic Device.
15. Evaluation of AlN thin film using a magnetic mirror type magnetron cathode for low gas pressure operation.
16. 低ガス圧力での運転を可能にする 磁気ミラー型マグネトロンスパッタリングカソード.
17. TiNiSb合金の単相化合成条件の検討と熱電特性への異相の影響.
18. Research of the effect of Sb compounds on thermoelectric properties in TiNiSb synthesis.
19. T.Motomura, T.Tabaru, M.Uehara, T.Okuyama, Magnetic mirror type magnetron sputtering cathode for low gas pressure and low power density operations, The 15th International Symposium on Sputtering & Plasma Processes, 2019.06.
20. M. Kajiwara, Y. Kawato, T. Okuyama, Aluminum Nitride Film Deposition in Low Gas Pressure Operation, Inter. Symp. Innovative Eng. 2019 (ISIE2019), 2019.03.
21. 高密度収束プラズマスパッタリング装置を用いた室温窒化ガリウム成膜の窒素ガス流量比依存性.
22. 水熱合成WO3ナノワイヤの構造設計および分子認識センサ応用.
23. 低ガス圧力環境下で非加熱スパッタ成膜した窒化アルミニウム薄膜の化学結合状態評価.
24. A.Yamamoto, Y.Yamasaki, Y.Obukuro, K.Nagashima, T.Yanagida, H.Saito, S.Hata, T.Okuyama, Study on Er-doped ZnO nanoparticles for near-infrared optical fibres, The International Joint Symposium 2020 on Innovative Materials Research and Development, 2020.01.
25. Y.Kawato, M.Yoshizuka, Y.Yamasaki, T.Okuyama, Discharge characteristics of Magnetic Mirror type Magnetron Cathode, The International Joint Symposium 2020 on Innovative Materials Research and Development, 2020.01.
26. M.Yoshizuka, Y.Kawato, Y.Yamasaki, T.Okuyama, Chemical bonding states of aluminum nitride thin films deposited at low gas pressure conditions, The International Joint Symposium 2020 on Innovative Materials Research and Development, 2020.01.
27. XRD Study for gallium nitride films prepared by high-density convergent plasma sputtering device.
28. 磁気ミラー型マグネトロンカソードを用いて低ガス圧力環境下で非加熱成膜した窒化アルミニウム薄膜.
29. Influence of gas pressure for oriented AlN film growth by magnetic mirror-type magnetron cathode.
30. Face-Selective Crystal Growth of Hydrothermal WO3 Nanowires & Molecular Sensing.
31. Descriptor Design for Prediction of Molecular Adsorption Tendency on GaN Crystal Surface by Machine Learning.
32. Structural design of hydrothermal ZnO nanowires synthesized using nanoparticles as seeds.
33. Structural design of hydrothermal ZnO nanowires synthesized using nanoparticles.
34. W doped ZnO nanosturucture morphology and photocatalytic properties.
35. W doped ZnO nanostructure morphology and photocatalytic properties.
36. プラズマスパッタリング装置を用いて作製したGaN薄膜の結晶構造及び化学結合状態評価.
37. XRD and XPS studies for gallium nitride films by high-density convergent plasma sputtering device.
38. 磁性元素をドープしたレピドクロサイト型層状チタン酸とこれを剥離させて得られるナノシートの分析の検討.
39. Synthesis and characterization of Y2Cu2O5 doped with another elements.
40. 熱電変換材料β-FeSi2の熱電発電特性向上のための結晶方位解析.
41. 熱電変換材料β-FeSi2/Si間の結晶構造解析と界面結合状態評価.
42. 水熱合成酸化亜鉛ナノ粒子の形態変化に及ぼす官能基の影響.
43. Synthesis of ZnO microrod by Hydrothermal synthesis method.
44. 作物成長活性化へ向けたZnOナノ粒子の活用に関する研究.
45. WドープZnOナノ構造体の形態と光触媒特性.
46. K.Naito, K.Nagashima, T.Yanagida, T.Okuyama, Impact of Functional Group of Molecular Active on Morphology of Chemically Synthesized ZnO Nanostructures, The 5th International Union of Materials Research Societies (IUMRS-ICYRAM2022), 2022.08.
47. T.Motomura, T.Tabaru, M.Uehara, Y.Fujio, T.Okuyama, Gallium Nitride Film Deposition by High-density Convergent Plasma Sputtering Device with Liquid Metal Target, 第32回 日本MRS年次大会, 2022.12.
48. Kazuki Nagashima, Sho Nekita, Guozhu Zhang, Takuro Hosomi, Tsunaki Takahashi, Masaki Kanai, Tetsuya Okuyama, Takeshi Yanagida, Face-Selective Crystal Growth of Hydrothermal Tungsten Oxide Nanowires for Sensing Volatile Molecules, 第41回電子材料シンポジウム, 2022.10.
49. Taichi Hara, Yuichiro Maeda, Akira Kusaba, Yoshihiro Kangawa, Fumitaro Ishikawa, Tetsuya Okuyama, Estimation of optimal conditions for semiconductor nanowires by MBE growth using machine learning, 第41回電子材料シンポジウム, 2022.10.
50. T.Hara, Y.Maeda, A.Kusaba, Y.Kangawa, F.Ishikawa, T.Okuyama, Data-driven approach to predict growth conditions of compound semiconductor nanowires for optical devices by molecular beam epitaxy, The 5th International Union of Materials Research Societies (IUMRS-ICYRAM2022), 2022.08.
51. CdドープZnOの光触媒特性に関する基礎研究.
52. Effect of discharge pulse length on GaN film crystallization by high-density convergent plasma sputtering device.
53. Synthesis and characterization of Y2Cu2O5 doped with another elements.
54. 光触媒活性を高めるZnOナノ粒子の形態制御に関する研究.
55. Effect of molecular additives on nanosheet morphology of ZnO nanoparticles.
56. Si複合化によるβ-FeSi2の熱電特性改善と接合界面解析.
57. Itsuki Misono, Tetsuya Okuyama, M. Kudo, Taisei Motomura, M. Uehara, T. Tabaru, Dependence of Pulse Length of Plasma Discharge on Crystallinity of GaN Film by High-density Convergent Plasma Sputtering Device, IMC 20 Satellite Symposium, 2023.09.
58. Nekita Sho, Yanagimoto Sotatsu, Kubota Tetsuya, Sannomiya Takumi, Akiba Keiichirou, Takiguchi Masato, Sumikura Hisashi, Takagi Itsuki, Nakamura G. Kazutaka, Yip SenPo, Meng You, Ho C. Johnny, Okuyama Tetsuya, Murayama Mitsuhiro, Saito Hikaru, Carrier diffusion effect in temporal decay of cathodoluminescence: toward nanoscale characterization of carrier dynamics, IMC20 - 20th International Microscopy Congress, 2023.09.