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List of Presentations
Ago Hiroki Last modified date:2024.04.09

Professor / Interdisciplinary Graduate School of Engineering Sciences / Faculty of Engineering Sciences


Presentations
1. Hiroki Ago, Large-scale growth and integration of high-quality 2D materials for 2.5D materials science, JAIST International symposium of Nano-Materials for Novel Devices, 2024.01.
2. Hiroki Ago, "Large area hexagonal boron nitride sheet for 2D electronic devices, International Display Workshops (IDW'23), 2023.12.
3. Hiroki Ago, Large-area synthesis and transfer of multilayer hexagonal boron nitride for high-performance graphene device arrays, 13th A3 Symposium on Emerging Materials: Nanomaterials for Electronics, Energy, and Environment, 2023.10.
4. Hiroki Ago, "Wafer-scale synthesis and applications of multilayer hexagonal boron nitride, 2023 International Workshop on Dielectric Thin Films for Fugure Electron Devices (IWDTF2023), 2023.10.
5. Hiroki Ago, From 2D materials to 2.5D materials science, The 7th Symposium on Challenges for Carbon-based Nanoporous Materials (7CBNM), 2023.10.
6. Hiroki Ago, Controlled synthesis and electronic applications of 2.5D materials, 33rd International Conference on Diamond and Carbon Materials (ICDCM2023), 2023.09.
7. Hiroki Ago, Synthesis and Electronic Applications of Wafer-Scale 2.5D Materials, SSDM2023 (International Conference on Solid State Devices and Materials), 2023.09.
8. Hiroki Ago, Controlled CVD growth of multilayer hBN for 2.5D applications, 第2回 MORE-TEMプロジェクト研究会, 2023.07.
9. Hiroki Ago, Controlled CVD growth of multilayer hBN for 2.5D applications, 2D Transition Metal Dichalcogenides, 2023.06.
10. Hiroki Ago, Controlled CVD gowth of multilayer hBN for 2.5D applications, Inaugural Workshop on Boron Nitride, 2023.05.
11. Hiroki Ago, Science of 2.5-Dimensional Materials: Controlled Growth, Integration, and Applications of 2D Materials, PIREキックオフミーティング(Japan US Networks for Clean energy Technologies Involving Oriented Nanotubes), 2023.05.
12. Hiroki Ago, Science of 2.5-Dimensional Materials: Controlled Growth, Integration, and Applications of 2D Materials, The 2.5D Materials – NANOCARBON joint workshop, 2022.12.
13. Hiroki Ago, From 2D materials to 2.5D materials science, RPGR2022 (Recent Progress in Graphene and Two-Dimensional Materials Research Conference), 2022.11.
14. Hiroki Ago, Twist angle-dependent molecular intercalation and carrier transport in bilayer graphene, 12th A3 Symposium on Emerging Materials, 2022.11.
15. Hiroki Ago, Science of 2.5-Dimensional Materials: Controlled Growth, Integration, and Applications of 2D Materials, IUMRS-ICAM2022, 2022.08.
16. Hiroki Ago, Future of 2D materials, The 10th International Workshop on 2D Materials, 2022.07.
17. Hiroki Ago, Science of 2.5 Dimensional Materials, Users' Meeting of Brookhaven National Laboratory "2D Materials and Beyond (Workshop 7), 2022.05.
18. H. Ago, 2.5-Dimensional Materials Science: Controlled Growth, Integration, and Applications of Graphene and h-BN, ISPlasma2022, 2022.03.
19. H. Ago, Bilayer graphene: CVD growth, machine learning-based analysis, and intercalation, The 9th International Workshop on 2D Materials, 2022.02.
20. H. Ago, Controlled CVD Growth of High-Quality 2D Layered Materials for Electronic and Photonic Applications, EU Graphene Flagship, 2D Experimental Pilot Line (2D-EPL) workshop "Pioneering 2D materials for the semiconductor industry", 2021.06.
21. H. Ago, Controlled synthesis and functionalization of 2D materials for future applications, Device science of 2D organic and inorganic materials: from fundamentals to applications, 2021.07.
22. H. Ago, Controlled synthesis and modifications of 2D materials for electronic applications, 2DMAT2021, 2021.08.
23. H. Ago, 2.5 dimensional materials: new frontier of atomic layers, SSDM2021 (2021 International Conference on Solid State Devices and Materials), 2021.09.
24. H. Ago, Bilayer graphene: CVD growth, machine learning-based analysis, and intercalation, 11th Asian Nanomaterials symposium (A3), 2021.12.
25. H. Ago, Highly Controlled CVD Synthesis of Monolayer and Multilayer h-BN for 2D Materials Applications, Graphene2020, 2020.10.
26. H. Ago, Synthesis of high-quality 2D materials for electronic applications, 2020 VLSI-TSA (VLSI: Technology, Systems and Applications), 2021.08.
27. H. Ago, Syntheses and growth mechanisms of 2D materials, A3 Foresight Program, 2020.07.
28. H. Ago, Controlled synthesis and processing of 2D materials for future applications, 1 & 2DM Conference and Exhibition 2020, 2020.01.
29. H. Ago, Controlled synthesis of 2D materials and their heterostructures for device applications, The 3rd Workshop on Functional Materials Science, 2019.12.
30. H. Ago, Controlled CVD growth of high-quality 2D layered materials for electronic and photonic applications, Materials Research Meeting 2019, 2019.12.
31. H. Ago, Controlled CVD growth of high-quality 2D materials and their heterostructures for electronic applications, 10th A3 Symposium on Emerging Materials: Nanomaterials for Electronics, Energy and Environment, 2019.10.
32. H. Ago, Controlled CVD growth of high-quality 2D materials and their heterostructures for electronic applications, RPGR2019 (Recent Progress in Graphene and 2D Materials Research), 2019.10.
33. H. Ago, Controlled CVD Growth of High-Quality 2D Materials and Their Heterostructures for Device Applications, SSDM2019 (Solid State Devices and Materials 2019), 2019.09.
34. H. Ago, Controlled synthesis of high-quality 2D materials for device applications, 2019 Symposia on VLSI Technology and Circuits, 2019.06.
35. H. Ago, Controlled CVD synthesis of high-quality 2D materials for electronic and photonic applications, 3rd EU-JP Flagship Workshop on Graphene & 2DMs, 2018.11.
36. H. Ago, Controlled CVD synthesis of high-quality 2D materials for electronic and photonic applications, First International Workshop on 2D Materials, 2018.11.
37. H. Ago, CVD Growth of large-area, uniform multilayer h-BN as a platform of 2D material applications, 9th A3 Symposium on Emerging Materials: Nanomaterials for Electronics, Energy and Environment, 2018.10.
38. H. Ago, Controlled synthesis of high-quality 2D materials for electronic and photonic applications, IUMRS-IECM 2018 (International Conference on Electronic Materials 2018), 2018.08.
39. H. Ago, Controlled growth of high-quality graphene and various 2D materials for enhancing their applications, CIMTEC 2018 (International Conference on Modern Materials and Technologies), 2018.06.
40. K. Suenaga, Y. Shiratsuchi, D. Ding, H. Hibino, K. Kawahara, H. Ago, ”In-plane TMDC-graphene heterostructures, CSS-EEST19 (The 19th Cross Straits Symposium on Energy and Environmental Science and Technology), 2017.11.
41. Y. Uchida, T. Iwaizako, S. Mizuno, M. Tsuji, H. Ago, Epitaxial chemical vapor deposition growth of boron nitride atomic sheet over Cu(111)/sapphire substrate, CSS-EEST19 (The 19th Cross Straits Symposium on Energy and Environmental Science and Technology), 2017.11.
42. H. G. Ji, Y.-C. Lin, K. Nagashio, P. Solís-Fernández, M. Maruyama, A. S. Aji, V. Panchal, S. Okada, K. Suenaga, H. Ago, Hydrogen-induced epitaxial growth of monolayer WS2 and orientation-dependent grain structures, CSS-EEST19 (The 19th Cross Straits Symposium on Energy and Environmental Science and Technology), 2017.11.
43. M. Izumoto, A. S. Aji, H. Ago, CVD growth and transport properties of SnS-MoS2 heterostructures, CSS-EEST19 (The 19th Cross Straits Symposium on Energy and Environmental Science and Technology), 2017.11.
44. H. Ago, Syntheses and applications of bilayer and multilayer graphene, 8th A3 Symposium on Emerging Materials, 2017.10.
45. M. Izumoto, A. Sukma Aji, K. Kawahara, K. Yamamoto, H. Nakashima, H. Ago, CVD growth and transport properties of SnS-MoS2 heterostructures, 8th A3 Symposium on Emerging Materials, 2017.10.
46. K. Suenaga, Y. Shiratsuchi, D. Ding, H. Hibino, K. Kawahara, H. Ago, In-plane TMDC-graphene heterostructures, 8th A3 Symposium on Emerging Materials, 2017.10.
47. H. G. Ji, Y.-C. Lin, K. Nagashio, P. Solís-Fernández, M. Maruyama, A. Sukma Aji, V. Panchal, S. Okada, K. Suenaga, H. Ago, Epitaxial Growth and Stitching of Monolayer WS2, 8th A3 Symposium on Emerging Materials, 2017.10.
48. Y. Terao, K. Kawahara, S. Mizuno, H. Hibino, H. Ago, CVD growth of bilayer graphene with controlled stacking order, 8th A3 Symposium on Emerging Materials, 2017.10.
49. H. Ago, Exploring the Growth of High-Quality Graphene, Related 2D Materials, and Their Heterostructures for Electronic Applications, 2017 NEA Symposium of Emerging Materials Innovation(第19回北東アジアシンポジウム), 2017.10.
50. P. Gomasang, T. Abe, K. Kawahara, Y. Wasai, N. Nabatova-Gabain, N. T. Cuong, H. Ago, S. Okada, K. Ueno, Moisture barrier properties of single-layer graphene deposited on Cu films for Cu metallization, SSDM2017 (International Conference on Solid State Devices and Materials), 2017.09.
51. H. G. Ji,P. Solis-Fernandez, A. Sukuma Aji1, Y.-C. Lin, K. Suenaga, K. Nagashio, H. Ago, Hydrogen-induced epitaxial growth and effective stitching of monolayer tungsten Disulfide, 第53回フラーレン・ナノチューブ・グラフェン総合シンポジウム, 2017.09.
52. A. Sukma Aji, H. G. Ji, P. Solis-Fernandez, K. Fukuda, H. Ago, Multi-layer graphene electrode for high performance flexible single-layer WS2 and its application to flexible photodetector, 第53回フラーレン・ナノチューブ・グラフェン総合シンポジウム, 2017.09.
53. A. Sukma Aji, H. G. Ji, P. Solis-Fernandez, K. Fukuda, H. Ago, High Performance Flexible Single-Layer WS2 Optoelectronics Devices Integrated with Multi-Layer Graphene Electrodes and Parylene-C Substrate, 第78回応用物理学会秋季学術講演会, 2017.09.
54. H. G. Ji,P. Solis-Fernandez, A. Sukuma Aji1, Y.-C. Lin, K. Suenaga, K. Nagashio, H. Ago, Hydrogen-Induced Epitaxial Growth of Monolayer WS2 and Orientation-Dependent Grain Boundaries, 第78回応用物理学会秋季学術講演会, 2017.09.
55. P. Gomasang,T. Abe, K. Kawahara, N. T. Cuong, H. Ago, S. Okada, K. Ueno, Suppression of Cu Oxidation by Single-Layer Graphene under High Temperature and High Humidity Test, 第78回応用物理学会秋季学術講演会, 2017.09.
56. H. Ago, High-quality graphene and related 2D materials for future IoT society, IUMRS-ICAM 2017 (The 15th International Conference on Advanced Materials), 2017.08.
57. H. Ago, Crystal growth and device applications of two-dimensional layered materials, AM-FPD'17 (24th Intenational Workshop on Active-Matrix Flatpanel Displays and Devices), 2017.07.
58. H. Ago, Syntheses of high-quality graphene and related 2D materials for enhancing their applications, Graphene EU Flagship-Japan Second Workshop, 2017.05.
59. D. Ding, P. Solís-Fernández, H. Hibino, H. Ago, Position controlled nucleation of single-crystal graphene on Cu, The 3rd Edition of European Graphene Forum (EGF 2017), 2017.04.
60. H. Ago, Exploring the growth of high-quality graphene and 2D heterostructures for electronic applications, The 6th International Symposium on Micro and Nano Technology, 2017.03.
61. S. Nakandakari, K. Kawahara, Y. Uchida, H. Ago, CVD synthesis of high-quality hexagonal boron nitride (h-BN) nanosheets as an ideal 2D insulator, The 6th International Symposium on Micro and Nano Technology, 2017.03.
62. D. Dong, P. Solis Fernandez, 日比野浩樹, 吾郷浩樹, Controlling the nucleation site of single-crystal graphene on Cu foil sandwiched by Ni, 第64回応用物理学会春季学術講演会, 2017.03.
63. H. Ago, Synthesis and application of graphene and 2D heterostructures, ISPlasma2017/IC-PLANTS2017, 2017.03.
64. S. Nakandakari, P. Solis Fernandez, A. Sukma, Aji,H. Ago, Graphene-Based Flexible Strain Sensors, 18th CSS-EEST, 2016.12.
65. H. Ago, Y. Takesaki, K. Kawahara, H. Hibino, S. Okada, M. Tsuji, Highly uniform bilayer graphene on epitaxial Cu-Ni(111) alloy, 7th A3 Symposium on Emerging Materials: Nanomaterials for Electronics, Energy and Environment, 2016.11.
66. D. Dong, P. Solis Fernandez, H. Hibino, H. Ago, Spatially controlled nucleation of multi-layer-free single-crystalline graphene on Cu foil, 7th A3 Symposium on Emerging Materials: Nanomaterials for Electronics, Energy and Environment, 2016.10.
67. H. Kinoshita, K. Kawahara, Y. Terao, H. Ago, Intercalation of FeCl3 into CVD-grown bilayer graphene, 7th A3 Symposium on Emerging Materials: Nanomaterials for Electronics, Energy and Environment, 2016.10.
68. H. Ago, Epitaxial Growth of Graphene and Related 2D Materials for Electronic Applications, The 6th NIMS-UR1-CNRS-SG Workshop, 2016.10.
69. H. Ago, Synthesis and processing of graphene and related 2D materials for electronic applications, 4th Malaysia 2D Materials and Carbon Nanotube Workshop (2DMC2016), 2016.10.
70. H. Kinoshita,K. Kawahara,H. Ago, Intercalation in Large-Area Bilayer Graphene, KJF-ICOMEP 2016, 2016.09.
71. H. Ago, Vertical and In-Plane Heterostructures of Graphene and MoS2, IUMRS-IECM2016 (IUMRS International Conference on Electronic Materials), 2016.03.
72. A. Sukma Aji, T. Shiiba, K. Fukuda, H. Ago, All two-dimensional transparent and flexible transistor based on WS2 and few-layer graphene, Graphene 2016, 2016.04.
73. A. Sukma Aji,椎葉俊明,福田憲二郎,吾郷浩樹, Single-layer WS2 phototransistor with multi-layer graphene electrodes on a flexible parylene substrate, 第63回応用物理学会春季学術講演会, 2016.03.
74. A. Sukma Aji,椎葉俊明,福田憲二郎,吾郷浩樹, Extremely thin and flexible single-layer WS2 phototransistors, 第50回フラーレン・ナノチューブ・グラフェン総合シンポジウム, 2016.02.
75. D. Ding,R. M. Yunus,P. Solís Fernández, 吾郷浩樹, Growth of large-grain graphene and the role of oxygen, 第50回フラーレン・ナノチューブ・グラフェン総合シンポジウム, 2016.02.
76. H. Ago, ”Exploring the growth of graphene and related 2D materials for electronic applications, Pacifichem2015 (Carbon Nanotubes: Preparation, Characterization and Applications), 2015.12.
77. H. Ago, Epitaxial CVD Growth of High-Quality Graphene and Recent Development of 2D Heterostructures, IEDM 2015 (International Electron Devices Meeting 2015), 2015.12.
78. D. Ding, P. Solís Fernández, H. Ago, Growth mechanism of giant single crystalline graphene over pre-oxidized copper foil, The 6th A3 Symposium on Emerging Materials, 2015.11.
79. Y. Uchida, T. Iwaizako, S. Mizuno, M. Tsuji, H. Ago, CVD growth single-layer hexagonal boron nitride on heteroepitaxial Cu films, The 6th A3 Symposium on Emerging Materials, 2015.11.
80. Y. Shiratsuchi, H. Endo, M. Tsuji, H. Hibino, H. Ago, In-plane heterostructures of graphene and MoS2, The 6th A3 Symposium on Emerging Materials, 2015.11.
81. P. Solís Fernández, M. Tsuji, H. Ago, Gate-tunable doping level of molecular doped graphene, The 6th A3 Symposium on Emerging Materials, 2015.11.
82. H. Ago, H. Endo, Y. Shiratsuchi, R. M. Yunus, S. Fukamachi, P. Solís Fernández, K. Kawahara, K. Yamamoto, M. Tsuji, H. Hibino, Vertical and in-plane heterostructures of graphene and MoS2, The 6th A3 Symposium on Emerging Materials, 2015.11.
83. H. Ago, Exploring the growth of graphene and related 2D materials for electronic applications, 1st EU-Japan Workshop on Graphene and Related 2D Material, 2015.10.
84. H. Ago, Exploring the Growth of Graphene and Related 2D Materials for Electronic Applications, 11th International Conference of Pacific Rim Ceramic Societies (PacRim-11), 2015.09.
85. T. Koyama, Y. Ito, K. Yoshida, M. Tsuji, H. Ago, H. Kishida, A. Nakamura, Dynamics of nonequilibrium carriers in monolayer graphene probed by near-infrared photoluminescence, The 16th International Conference on the Science and Applications of Nanotubes (NT15), 2015.06.
86. H. Ago, Y. Ohta, H. Hibino, D. Yoshimura, R. Takizawa, K. Kawahara, M. Tsuji, T. Okajima, H. Mitani, S. Mizuno, Growth dynamics of single-layer graphene on epitaxial Cu surfaces, The 16th International Conference on the Science and Applications of Nanotubes (NT15), 2015.06.
87. H. Ago, Synthesis, Characterization, and Applications of Single- and Double-Layer Graphene Grown on Epitaxial Metal Films, 227th ECS Meeting, 2015.03.
88. SOLIS FERNANDEZ PABLO, 辻 正治, 吾郷 浩樹, Tuning the electronic properties of graphene nanoribbons by chemical functionalization, 第62回応用物理学会春季学術講演会 , 2015.03.
89. 吾郷 浩樹, Exploring the growth of graphene and related 2D materials for electronic applications, The First Joint Symposium of Kyushu University and Yonsei University on Materials Science and Chemical Engineering (SKY-1), 2015.02.
90. R. Mohamad Yunus, 宮下雅大, 辻 正治, 日比野浩樹, 吾郷 浩樹, Direct CVD Growth of Oriented Graphene Nanoribbons on Cu(100) Films, The First Joint Symposium of Kyushu University and Yonsei University on Materials Science and Chemical Engineering (SKY-1), 2015.02.
91. 太田勇二郎, 水野 清義, 辻 正治, 吾郷 浩樹, Growth dynamics of single-layer graphene on epitaxial Cu surfaces, 2015 IMCE International Symposium, 2015.01.
92. 祝迫祐, 内田勇気, Masaharu Tsuji, 吾郷 浩樹, Large scale synthesis of hexagonal boron nitride, 北海道大学電子科学研究所 シンポジウム「響」, 2014.12.
93. 吾郷 浩樹, Exploring the growth of graphene and related 2D materials for electronic applications, 北海道大学電子科学研究所 シンポジウム「響」, 2014.12.
94. 小川友以, L. Brown, C.-J. Kim, 辻 正治, 吾郷 浩樹, J. Park, Ultra flat CVD‐grown graphene for stacking method, MRS Fall Meeting 2014, 2014.12.
95. R. M. Yunus, 宮下雅大, 辻 正治, 日比野浩樹, 吾郷 浩樹, Direct CVD Growth of Oriented Graphene Nanoribbons over Heteroepitaxial Cu Films, MRS Fall Meeting 2014, 2014.12.
96. 太田勇二郎, 水野 清義, 日比野浩樹, 辻 正治, 吾郷 浩樹, Growth Dynamics of Single-Layer Graphene on Epitaxial Cu Surfaces, 27th International Microprocesses and Nanotechnology Conference (MNC 2014), 2014.11.
97. 竹崎悠一郎, 辻 正治, 吾郷 浩樹, Controlling the Number of Layers of CVD Graphene Using Binary Metal Films, 27th International Microprocesses and Nanotechnology Conference (MNC 2014), 2014.11.
98. 吾郷 浩樹, Controlled Growth and Growth Mechanism of Graphene on Epitaxial Cu Films, 2014 A3 Symposium of Emerging Materials: Nanomaterials for Energy and Environments , 2014.10.
99. 吾郷 浩樹, CVD growth and characterization of graphene and related 2D materials, NIMS MANAセミナー, 2014.06.
100. 吾郷 浩樹, Graphene and its Nanostructures: Epitaxial CVD Growth, Processing, and Challenges, 信州大学 2014 CEES Special Lecture, 2014.04.
101. Hiroki Ago, Graphene and Its Nanostructures: Epitaxial Growth, Characterization, and Challenges, The 3rd International Conference on MEXT Project of Integrated Research on Chemical Synthesis, 2014.01.
102. Hiroki Ago, Graphene and Its Nanostructures: Epitaxial Growth, Characterization, and Challenges, The 3rd International Conference on MEXT Project of Integrated Research on Chemical Synthesis, 2014.01.
103. Shota Tanoue, Kenji Kawahara, Masaharu Tsuji, Hiroki Ago, CVD Growth of bilayer graphene on heteroepitaxial Cu(111) film, CSS-EEST15 (Cross Straits Symposium on Energy and Environmental Science and Technology), 2013.11.
104. Hiroki Ago, Top-down and bottom-up production of graphene nanoribbons, 2013 A3 Symposium of Emerging Materials: Nanomaterials for Energy and Environments, 2013.11.
105. M. Z. Nursakinah, Y. Ohno, K. Maehashi, Kenji Kawahara, Hiroki Ago, K. Matsumoto, CVD-synthesized graphene-FET array for biomolecule detection, MNC 2013 (26th International Microprocesses and Nanotechnology Conference), 2013.11.
106. Hiroki Ago, Kenji Kawahara, Yui Ogawa, Shota Tanoue, MARK ALEXANDER BISSETT, Masaharu Tsuji, Hidetsugu Sakaguchi, R. J. Koch, F. Fromm, T. Seyller, Katsuyoshi Komatsu, Kazuhito Tsukagoshi, Epitaxial growth and electronic properties of large hexagonal graphene domains on Cu(111) thin film, SSDM2013 (International Conference on Solid State Devices and Materials), 2013.09.
107. Yui Ogawa, Kenji Kawahara, Masahiro Miyashita, Masaharu Tsuji, Katsuyoshi Komatsu, Kazuhito Tsukagoshi, Hiroki Ago, Transport properties and defects at the intersection of CVD graphene domains, SSDM2013 (International Conference on Solid State Devices and Materials), 2013.09.
108. MARK ALEXANDER BISSETT, Susumu Okada, Masaharu Tsuji, Hiroki Ago, Strain enhanced chemical reactivity of graphene, 2013 JSAP-MRS Joint Symposia, 2013.09.
109. Yui Ogawa, T. Niu, S. L. Wong, Masaharu Tsuji, C. Wei, Hiroki Ago, Self-sssembly of phthalocyanine molecules on CVD graphene, 2013 JSAP-MRS Joint Symposia, 2013.09.
110. Rozan M. Yunus, Masahiro Miyashita, Masaharu Tsuji, Hiroki Hibino, Hiroki Ago, CVD growth of graphene nanoribbons on heteroepitaxial metal films, 2013 JSAP-MRS Joint Symposia, 2013.09.
111. Shota Tanoue, Kenji Kawahara, Masaharu Tsuji, Hiroki Ago, CVD Growth of bernal stacked bilayer graphene on heteroepitaxial Cu(111) film, 2013 JSAP-MRS Joint Symposia, 2013.09.
112. Hiroki Ago, Graphene and nanoribbons: epitaxial CVD growth, processing, and applications, 2013 JSAP-MRS Joint Symposia, 2013.09.
113. MARK ALEXANDER BISSETT, Satoshi Konabe, Susumu Okada, Masaharu Tsuji, Hiroki Ago, Modifying of chemical reactivity of graphene by mechanical strain, Recent Progress on Graphene Research (RPGR2013), 2013.09.
114. H. Sugiyama, T. Watanabe, Y. Kurita, A. Satou, Kenji Kawahara, Hiroki Ago, V. Ryzhii, T. Otsuji, Observation of spontaneous terahertz emission from optically pumped graphene, Recent Progress on Graphene Research (RPGR2013), 2013.09.
115. Yui Ogawa, T. Niu, S. L. Wong, Masaharu Tsuji, C. Wei, Hiroki Ago, Self-sssembly of polar phthalocyanine molecules on CVD graphene, Recent Progress on Graphene Research (RPGR2013), 2013.09.
116. SOLIS FERNANDEZ PABLO, Kazuma Yoshida, Yui Ogawa, Masaharu Tsuji, Hiroki Ago, Densely packed and highly aligned graphene nanoribbons produced by substrate-controlled metal-assisted etching of graphene, Recent Progress on Graphene Research (RPGR2013), 2013.09.
117. Hiroki Ago, Epitaxial CVD growth of graphene: growth mechanism, nanofabrication, and properties, 20th International Workshop on Active-Matrix Flat Displays and Devices (20th AM-FPD-13), 2013.07.
118. Yui Ogawa, Kenji Kawahara, Masahiro Miyashita, Masaharu Tsuji, Katsuyoshi Komatsu, Kazuhito Tsukagoshi, Hiroki Ago, Study on Domain Boundaries of Merged Hexagonal Domains in CVD Graphene, International Conference on Materials for Advanced Technologies (ICMAT2013), 2013.07.
119. Hiroki Ago, Graphene: epitaxial CVD growth, nanofabrication, and properties, 1st Conference (Kick-Off conference) of SANKEN Core to Core Program, 2013.06.
120. SOLIS FERNANDEZ PABLO, Yasumichi Kayo, Kazuma Yoshida, Masaharu Tsuji, Hiroki Ago, Synthesis of densely aligned graphene nanoribbons produced by metal-assisted etching, International Symposium on Compound Semiconductors 2013 (ISCS2013), 2013.05.
121. Hiroki Ago, Kenji Kawahara, Yui Ogawa, Masaharu Tsuji, Katsuyoshi Komatsu, Kazuhito Tsukagoshi, Epitaxial growth and transport study of large hexagonal graphene domains grown on heteroepitaxial Cu films, International Symposium on Compound Semiconductors 2013 (ISCS2013), 2013.05.
122. Zhenyao Tang, 吾郷 浩樹, 河原憲治, 仕幸英治, 安藤裕一郎, 新庄輝也, 白石誠司, Investigation of spin transport in single-layer graphene by using a dynamical method, 第60回応用物理学会春季学術講演会, 2013.03.
123. MARK ALEXANDER BISSETT, Wataru Izumida, Riichiro Saito, Masaharu Tsuji, Hiroki Ago, Investigation of mechanical strain of graphene by Raman spectroscopy, 第60回応用物理学会春季学術講演会, 2013.03.
124. SOLIS FERNANDEZ PABLO, 嘉陽安理, 吉田和真, 辻 正治, 吾郷 浩樹, Large-area synthesis of densely aligned graphene nanoribbons by metal-assisted etching, 第60回応用物理学会春季学術講演会, 2013.03.
125. BISSETT MARK ALEXANDER, 辻 正治, 吾郷 浩樹, Raman spectroscopy of mechanically strained chemically functionalized graphene, 第44回フラーレン・ナノチューブ・グラフェン総合シンポジウム, 2013.03.
126. 小川友以, K. Kawahar, M. Miyashita, 辻 正治, K. Komatsu, K. Tsukagoshi, 吾郷 浩樹, Transport property of interface between domains in epitaxial CVD graphene, MANA International Symposium 2013, 2013.02.
127. BISSETT MARK ALEXANDER, 吾郷 浩樹, Raman spectroscopy of mechanically strained and chemically functionalised graphene, 第5回九大グラフェン研究会, 2013.01.
128. MARK ALEXANDER BISSETT, Wataru Izumida, Riichiro Saito, Hiroki Ago, Anomalous Raman Behavior of CVD Grown Graphene under Strain, MRS 2012 Fall Meeting, 2012.11.
129. 小川友以, Kenji Kawahara, Masahiro Miyashita, Masaharu Tsuji, Hiroki Ago, Study on Interface between Graphene Domains Grown by Ambient-pressure CVD, MRS 2012 Fall Meeting, 2012.11.
130. Hiroki Ago, Epitaxial CVD growth of graphene, The 6th International Workshop on Advanced Materials Science and Nanotechnology (IWAMSN 2012), 2012.11.
131. Z. Y. Tang, Hiroki Ago, E. Shikoh, Y. Ando, T. Shinjo, M. Shiraishi, Spin-pumping-induced spin injection and spin transport in single layer graphene at room temperature, IUMRS-ICEM 2012 , 2012.09.
132. MARK ALEXANDER BISSETT, Wataru Izumida, Riichiro Saito, Hiroki Ago, Investigation of biaxial strain on chemically functionalized graphene, IUMRS-ICEM 2012 , 2012.09.
133. Hiroki Ago, Towards single-crystalline graphene by catalytic CVD, IUMRS-ICEM 2012 , 2012.09.
134. Zhenyao Tan, 吾郷 浩樹, 河原憲冶, 仕幸英治, 安藤裕一郎, 新庄輝也, 白石誠司, Spin-pumping-induced spin transport in single layer graphene, 2012年秋季 第73回 応用物理学会学術講演会, 2012.09.
135. Mark A. Bissett, 泉田渉, 齋藤理一郎, 吾郷 浩樹, Effect of mechanical strain on polycrystalline graphene, 第43回 フラーレン・ナノチューブ・グラフェン総合シンポジウム, 2012.09.
136. Hiroki Ago, Epitaxial CVD growth of graphene, KJF International Conference on Organic Materials for Electronics and Photonics 2012, 2012.09.
137. Hiroki Ago, Single- and Double-Layer Graphene on Heteroepitaxial Metal Films, icsfs 16 (International Conference on Solid Films and Surfaces), 2012.07.
138. Hiroki Ago, Yui Ogawa, Masaharu Tsuji, Research Collaboration Report: Surface Science in CVD Graphene, 1st NUS-IMCE International Workshop, 2012.06.
139. Surface atomic arrangement-programmed growth of horizontally-aligned SWNTs on sapphire.
140. Competing Growth of Horizontally-Aligned SWNTs between Surface Atomic Arrangement and Surface Steps on Sapphire.
141. Growth mechanism of single- and double-walled carbon nanotubes studied by gas analysis.
142. Controlled synthesis and applications of carbon nanotubes.
143. Chemistry of Water-Oxidation during CVD Growth of Single- and Double-Walled Carbon Nanotubes over Fe-Mo/MgO Catalyst.
144. Control of Location and Orientation of Single-Walled Carbon Nanotubes on Sapphire Surface.
145. Competing Growth of Horizontally-Aligned SWNTs between Surface Atomic Arrangement and Surface Steps on Sapphire.
146. Fabrication and Evaluation of carbon nanotubes-incoporated microreactors.
147. Control of Location and Orientation of Single-Walled Carbon Nanotubes on Sapphire Surface.
148. Dielectrophoretic separation of semiconducting from metallic single-walled carbon nanotubes in a microfluidic device.
149. Horizontally-aligned growth of single-walled carbon nanotubes programmed by atomic-arrangement of sapphire surfaces and their device application.
150. Aligned growth of single-walled carbon nanotubes programmed by single crystal surface.
151. Electronic structures, properties, and device applications of pi-electron systems.
152. High yield synthesis of single- and double-walled carbon nanotbes by gas analysis.
153. Dielectrophoresis of single-walled carbon nanotubes in a microchip.
154. Aligned growth of single-walled carbon annotubes and their characterization.
155. Third-order Nonlinear Optical Response in Individual Double-Walled Carbon Nanotubes.
156. Microreactors utilizing vertically-aligned carbon nanotubes.
157. Dielectrophoresis of SWNTs in a Microchip.
158. position- and direction-controlled growth of single-walled carbon nanotubes.
159. Synthesis of horizontally-aligned SWNTs with controllable density on sapphire surface and their polarized Raman spectroscopy.
160. Microreactors utilizing vertically-aligned carbon nanotubes.
161. Optical study of the SWNT dispersion after dielectrophoresis.
162. Development of carbon nanotube growth techniques.
163. Controlled growth of carbon nanotubes and their applications.
164. Aligned growth of isolated single-walled carbon nanotubes programmed by atomic-arrangement of crystalline surfaces.
165. Microreactors Utilizing Vertically-Aligned Carbon Nanotubes.
166. Synthesis of Horizontally-Aligned SWNTs with Controllable Density on Sapphire Surface and their Polarized Raman Spectroscopy.
167. Microreactors Utilizing Vertically-Aligned Carbon Nanotubes.
168. Dielectrophoresis of SWNTs in a Microchip.
169. Gas Analysis of CVD Processes for High-Yield Synthesis of Single-Walled Carbon Nanotubes.
170. Application of Carbon Nanotubes to Catalyst Support for Organic Reaction.
171. Advances in the growth of carbon nanotubes and their applications.
172. Aligned Growth of Isolated Single-Walled Carbon Nanotubes Programmed by Atomic Arrangement of Crystalline Surface.
173. Aligned growth of isolated single-walled carbon nanotubes programmed by atomic-arrangement of crystalline surfaces.
174. Synthesis and applications of carbon nanotubes.
175. Aligned growth of isolated single-walled carbon nanotubes programmed by atomic-arrangement of crystalline surfaces.
176. Carbon nanotubes - growth mechanism and applications -.
177. paterning and application of carbon nanotubes based on ink-jet technology.
178. Screening Study of Catalyst Compositions by using Supramoleclar Catalysts for the Synthesis of Single-Walled Carbon Nanotubes.
179. Aligned Growth of Isolated Single-Walled Carbon Nanotubes Programmed by Atomic Arrangement of Crystalline Surface.
180. CVD growth of single-walled carbon nanotubes with narrow diameter distribution over Fe/MgO catalyst and their fluorescence spectroscopy.
181. Aligned growth of isolated single-walled carbon nanotubes programmed by atomic-arrangement of crystalline surfaces.
182. Ultra-fast carrier dynamics of double-walled carbon nanotubes.
183. Roles of metal-support interaction on the catalytic growth of single- and double-walled carbon nanotubes.
184. Controlled growth and applicatoins of carbon nanotubes.
185. Growth mechanism and structure control of carbon nanotubes on supported catalyst.
186. Growth methods and applications of carbon nanotubes.
187. Synthesis of single-walled carbon nanotubes in the gas-phase by using size-controlled metal nanoparticle catalysts.
188. CVD Growth of Uniform Diameter Single-Walled Carbon Nanotubes over Fe/MgO Catalyst and Their Optical Properties.
189. Substrate Effects on Single-Walled Carbon Nanotube Growth over Diameter-Controlled Iron Nanoparticles.
190. Mechanical Immobilization of HeLa Cells on Aligned Carbon Nanotube Array.
191. Controlled growth and applications of carbon nanotubes.
192. The basics of carbon nanotubes - growth mechanism and electronical and optical properties.
193. Growth and formation mechanism of single- and double-walled carbon nanotubes by a CVD method.
194. Substrate effects on growth of carbon nanotubes over diameter-controlled iron nanoparticles.
195. Measurements of In-plane Thermal Conductivity and Electrical Conductivity of Suspended Platinum Thin Film.
196. Synthesis and Electronic Applications of Carbon Nanotubes.
197. Growth of Single- and Double-Walled Carbon Nanotubes over Fe/MgO Catalyst and Roles of Metal-Support Interaction.
198. Role of Metal-Support Interaction in the CVD Growth of Carbon Nanotubes Studied with Size-Controlled Nanoparticles.
199. Growth Mechanism of Carbon Nanotubes -Interaction Between Iron Particles and Substrate-.
200. Effects of Electric Field on Growth of Carbon Nanotubes.
201. Growth of Double-Walled Carbon Nanotubes over Fe-Supported MgO Catalyst.
202. Carbon Nanotubes: Synthesis and Applications to Engineering.
203. Syhnthetic Technologies and Advanced Applications of Carbon Nanotubes.
204. Basics and Properties of Carbon Nanotubes Found in Japan.
205. Carbon Nanotube Growth From Size-Controlled Iron Nanoparticles.
206. Growth of Single-wall Carbon Nanotubes on Iron Nanoparticles Supported on MgO.
207. Molecular Studies on Self-Assembled Nano-Structures: Structure, Interface, and Catalysts.
208. Synthesis and Applications of Carbon Nanotubes - Recent Development -.
209. General Introduction of Synthestic Technologies of Carbon Nanotubes.
210. Strong Metal-Support Interaction in the Iron Nanoparticles Supported on MgO.


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