| No. | Title | Author(s) | Affiliation | Category |
| P1-1 | Engineered Interface of Correlated Electron Magnetic Oxides | Hiroyuki Yamada | National Institute of Advanced Industrial Science and Technology | Nano Physics |
| P1-2 | Ab-initio prediction of Curie temperatures of dilute magnetic semiconductors | H. Katayama-Yoshida and K. Sato | Osaka Univ | Nano Physics |
| P1-3 | Theoretical studies of magnetic superlattice CrAs/GaAs; distortion effects and growth process | Masaaki Geshi, Kiichiro Mukose, Keita Yamana, Masafumi Shirai,Koichi Kusakabe, Naoshi Suzuki | Osaka University | Nano Physics |
| P1-4 | Nanoelectronics Research for Future Generations | M. Tanaka, T. Hiramoto, Y. Nakano, K. Hirakawa, T. Sakurai, H. Fujita, Y. Arakawa, H. Sakaki, and K. Hotate | The University of Tokyo | Nano Physics |
| P1-5 | Nanoscale probe by laser combined scanning tunneling microscopy | Shoji Yoshida, Masahiro Aoyama, Juniichi Kikuchi Osamu Takeuchi and Hidemi Shigekawa | University of Tsukuba | Nano Physics |
| P1-6 | Developement and Application of Atomic Switch | Tsuyoshi Hasegawa, Kazuya Terabe, Tomonobu Nakayama, Masakazu Aono | National Institute for Materials Science | Nano Physics |
| P1-7 | Bias-voltage dependence of chemical bonding force detected by noncontact atomic force microscopy/spectroscopy | Toyoko Arai | Japan Advanced Institute of Science and Technology | Nano Physics |
| P1-8 | Design of High Sensitivity NO2 Nanosensor Using MEMS Technique | Takeshi Hashishin, Akira Miyaji, Shunsuke Ogura, Satoshi Konishi, Jun Tamaki | Ritsumeikan University | Nano Physics |
| P1-9 | Reversible Rectifier that Controls the Motion of Magnetic Flux Quanta in Superconductors | J.E.Villegas, Sergey Savel'ev, Franco Nori, E.M. Gonzalez, J.V. Anguita, R. Garcia, J.L. Vicent | RIKEN | Nano Physics |
| P2-1 | Fabrication of Nanoelectrodes for Single Molecular Measurements | Takashi Nagase, Kenji Gamo, Tohru Kubota, Shinro Mashiko | National Institute of Information and Communications Technology (NICT) | Nano IT Device |
| P2-2 | Electron Spin Relaxation in n-InGaAs (110) Quantum Wells | Ken Morita, Haruki Sanada, Shunichirou Matsuzaka, Yuzo Ohno, Hideo Ohno | Tohoku University | Nano IT Device |
| P2-3 | Advanced Photonic and Electronic Devices Based on Nano-Scale Approaches | Kawakami Yoichi, Tsunenobu Kimoto and Masahiro Imada | Kyoto University | Nano IT Device |
| P2-4 | Moth-eye Light Emitting Diode | Motoaki Iwaya, Satoshi Kamiyama, Hiroshi Amano and Isamu Akasaki | Meijo University | Nano IT Device |
| P2-5 | Advances in physics and growth of quantum dots for lasers and single photon sources | Y. Arakawa, M. Sugawara, S. Iwamoto, T. Nakaoka and S. Kako | The University of Tokyo, NCRC | Nano IT Device |
| P2-6 | MOVPE growth of InAs quantum dots on InAlGaAs buffer/(100)InP for multi-wavelength optical regeneration | Shigekazu Okumura, Kenichi Kawaguchi, Osamu Aoki, Mitsuru Ekawa, Haruhiko Kuwatsuka, and Mitsuru Sugawara | Fujitsu Limited | Nano IT Device |
| P2-7 | Formation technology and laser-device application of Sb-based quantum dot material | Naokatsu Yamamoto, Kouichi Akahane, Shin-ichirou Gozu, Akio Ueta, and Naoki Ohtani | National Institute of Information and Communications Technology | Nano IT Device |
| P2-8 | Fabrication of Synthetic Metals-Based Nanodevices using Nanoscale Electrocrystallization | Hiroyuki HASEGAWA, Rieko UEDA, Tohru KUBOTA Shinro MASHIKO | National Institute of Information and Communications Technology (NICT) | Nano IT Device |
| P2-9 | Micro Optical Filter in Photonic Crystal for Optical Add Drop Multiplexer | J. Ushida, A. Gomyo, K. Shinoda, and M. Tokushima | Fundamental and Environmental Research Laboratories, NEC Corporation | Nano IT Device |
| P2-10 | Advanced fiber coupling techniques for nanometer scale silicon photonic circuits | L. R. Nunes, K. Sasagawa, and M. Tsuchiya | National Institute of Information and Communications Technology | Nano IT Device |
| P2-11 | Nano Birefringent Crystal-Doped Zero-Birefringence Optical Polymers for Liquid Crystal Displays | Akihiro Tagaya, Hisanori Ohkita, and Yasuhiro Koike | Exploratory Research for Advanced Technology (ERATO) Koike Photonics Polymer Project ERATO | Nano IT Device |
| P2-12 | Optic Devices Using Liquid Crystal Nano-Structures | Myoung Hoon Song, Yoichi Takanishi and Hideo Takezoe | Tokyo Institute of Technology | Nano IT Device |
| P2-13 | Studies of Integrated Variable Optical Devices Fabricated by Micro- and Nano-machining | Yoshiaki Kanamori, Minoru Sasaki, Kazuhiro Hane | Tohoku University | Nano IT Device |
| P2-14 | Nanodevice and related fabrication technology development at Hiroshima University 21st COE program | Takuji Hosoi, Kentaro Shibahara | Hiroshima University | Nano IT Device |
| P2-15 | Development of Nano-precision Mechanical Fabrication system with IT technology | H. Ohmori, Y. Watanabe, W. Lin, T. Toru, Y. Uehara, H. Eto, N. Ebitsuka, A. Makinouchi | RIKEN | Nano IT Device |
| P2-16 | Fabrication of III-group Nitrogen Fine Structures on a Si Substrate | T. Narita, Y. Honda, M. Yamaguchi, N. Sawaki | Nagoya University | Nano IT Device |
| P3-1 | Evolution of gold nanoparticle structure on a size-temperature map | Kenji Koga | National Institute of Advanced Industrial Science and Technology | Nano Materials |
| P3-2 | Synthesis Processing Techniques for Highly Luminescent Nanoparticles | Wuled Lenggoro | 広島大学 | Nano Materials |
| P3-3 | Super-Growth: A Breakthrough in Single Walled Carbon Nanotube Synthesis | Don N. Futaba, Kenji Hata, Takeo Yamada, Kohei Mizuno, Motoo Yumura, and Sumio Iijima | National Institute of Advanced Industrial Science and Technology | Nano Materials |
| P3-4 | Spin glass behavior and magneto-optical effects in disordered zinc ferrite thin film | Seisuke Nakashima, Koji Fujita, Katsuhisa Tanaka, Kazuyuki Hirao, Tomoyuki Yamamoto, and Isao Tanaka | Kyoto University | Nano Materials |
| P3-5 | Non-viscoelastic Materials via Nanostructure Control in Reactive Blending of Polyamide with Polyolefin | Daisuke Sato, Kenji Komori, Yuji Kadowaki, Masahiro Nozue,Junya Ishibashi and Takashi Inoue | Yamagata University | Nano Materials |
| P3-6 | Development of novel thermal barrier coatings by twin hybrid plasma spraying | Heji Huang, Keisuke Eguchi, Makoto Kambara, Toyonobu Yoshida | The University of Tokyo | Nano Materials |
| P3-7 | Nano Stress Measurement: Application to Thermally Grown Oxide on Thermal Barrier Coating System by Near-Field Optical Microscopy | T. Tomimatsu, M. Hasegawa and Y. Kagawa | The University of Tokyo | Nano Materials |
| P3-8 | Synthesis and Characterization of an Ultrathin Silicon Oxide Film with Ozone: Challenges in the 3D NanoScale Certified Reference Materials Project | Ken Nakamura, Hidehiko Nonaka, Akira Kurokawa, Toshiyuki Fujimoto and Shingo Ichimura | National Institute of Advanced Industrial Science and Technology (AIST) | Nano Materials |
| P3-9 | Realization and application of left-handed materials using ferromagnetic-metal nanocomposite films | Satoshi Tomita | | Nano Materials |
| P3-10 | Creation of organic-inorganic eterostructures and their novel functional properties | Y. Takeoka, M. Yoda, K. Kikuchi, M. Rikukawa, K. Sanui | Sophia University | Nano Materials |
| P3-11 | Multicolor Photochromism of Silver Nanoparticles Deposited on Titanium Dioxide | Yoshihisa Ohko and Tetsu Tatsuma | The University of Tokyo | Nano Materials |
| P3-12 | Creation of high performance gas storage materials by nanoprocessing technology | Z. -M. Wang, et al. | National Institute of Advanced Industrial Science and Technology | Nano Materials |
| P3-13 | Design of a new crystal based on the interaction of potassium clusters arrayed in zeolite LTA | Tetsuya KODAIRA, Yutaka MURAKAMI and Takuji IKEDA | National Institute of Advanced Industrial Science and Technology | Nano Materials |
| P3-14 | Conductivity Measurement of Nano-structures by Microwave Technique | A. Saeki, Y. Ohno, S. Seki, K. Matsumoto, S. Tagawa | Osaka University | Nano Materials |
| P3-15 | Structuring knowledge on materials technology: general understanding of phenomena occuring in materials and its practical applications | Suguru Noda | The University of Tokyo | Nano Materials |
| P3-16 | Organic-inorganic hybrid materials obtained by solventless reactions for photonics applications | Masahide Takahashi, KANG Eun-Seok, Yomei Tokuda, Toshinobu Yoko | Kyoto University | Nano Materials |
| P3-17 | Macroscopic Spinning Chirality Memorized in Spin-Coated Films of Spatially Designed Dendritic Zinc Porphyrin J-Aggregates | Tatsuya Yamaguchi, Takuzo Aida | Japan Science and Technology Agency | Nano Materials |
| P3-18 | Control of GaN Nano-crystal Formation for the High-quality, Low-dislocation GaN substrates | Akinori Koukitu and Hisashi Murakami | Tokyo University of Agriculture and Technology | Nano Materials |
| P4-1 | The New Type Rotary Nano-machinery; V type ATPase/synthase. | Ken Yokoyama, Hiromi Imamura, Masasuke Yoshida | Japan Science and Technology AgencyATP system Project, ERATO | Nano Bio |
| P4-2 | Single molecule analyses of protein rotary motors, F1-ATPase and FoF1-ATP synthase. | Toshiharu Suzuki, Hiroshi Ueno, Katsuya Shimabukuro, Ryota Iino, and Masasuke Yoshida | Japan Science and Technology AgencyATP system Project, ERATO | Nano Bio |
| P4-3 | Muscle motor protein myosin-generated force analyzed by FRET and optical trap nanometry | Takashi Ohki, Hirofumi Onishi, Naoki Mochizuki | Natl. Cardiovascular Center Research Institute | Nano Bio |
| P4-4 | Nano-technology of Biomolecules and Cells | Hiroshi Sekiguchi, Hironori Uehara, Rehana Afrin, Toshiya Osada and Atsushi Ikai | Tokyo Institute of Technology | Nano Bio |
| P4-5 | Enhancement of cell differentiation in Normal Human Keratinocytes and Human Mesenchymal Stem Cells by the anionic-modified hyaluronan | Tsutomu Nagira, Misao Nagahata, Toshie Tsuchiya | National Institute of Health Sciences | Nano Bio |
| P4-6 | Real-time imaging of cellular prion protein ‾ Intracellular trafficking, processing and neuronal cell death ‾ | Naomi S. Hachiya , Kota Watanabe, Yuji Sakasegawa and Kiyotoshi Kaneko | National Institute of Neurology and Psychiatry, National Institute of Neurology | Nano Bio |
| P4-7 | Crystallization of calcineurin homologous protein CHP, an essential cofactor of the Na+/H+ exchanger | Youssef Ben Ammar, Soichi Takaeda, Tianxiang Pang, Takashi Hisamitsu, Hidezo Mori, Shigeo Wakabayashi | National Cardiovascular Center Research Institute | Nano Bio |
| P4-8 | Reagentless, Electrochemical SNPs Detection by Ferrocene-Pi-Conjugated “DNA WIres” that display “On-Off” Type Digital Action | Masahiko Inouye, Reona Ikeda, and Junya Chiba | Toyama Medical and Pharmaceutical University | Nano Bio |
| P4-9 | Creation of biosystem-integrated microdevices using sol-gel method | Masaru Kato | University of Shizuoka | Nano Bio |
| P4-10 | Creation of Nanobio-Analytical Devices Using Nano/Microfabrication Technology | Takanori Ichiki | The University of Tokyo | Nano Bio |
| P4-11 | Development of a Percutaneous device made of a nano-ceramics/fiber composite | T.FURUZONO, M.OKADA, J.TANAKA, S. YASUDA | National Cardiovascular Center Research Institute | Nano Bio |
| P4-12 | Fabrication of DNA Sensors Using DNA Self-Assembled Monolayer | Fumio Nakamura, Masahiko Hara | Toray Industries Inc. | Nano Bio |
| P4-13 | Soft-Nanotechnology: Novel Biomaterial Fabrication for Controlling Cell Responses | Masanori Kikuchi, Shinichi Sotome, Yoshihisa Koyama, Soichiro Itoh, Kazuo Takakauda, Kenichi Shinomiya, Junzo Tanaka | National Institute for Materials Science | Nano Bio |
| P4-14 | Development of Artificial Internal Organ by the use of Nano Technology | Tomoyuki Yambe | Tohoku University | Nano Bio |
| P4-15 | Extracorporeal Control of Nano-device Functions Aimed at Effective Cancer Therapy | Takao Aoyagi, Hirotake Wakamatsu | Kagoshima University | Nano Bio |
| P4-16 | Azobenzene-tethered DNA for the photo-regulation of DNA functions | Hiroyuki Asanuma, Daijiro Matsunaga, Makoto Komiyama | The University of Tokyo | Nano Bio |
| P4-17 | Development of super critical fluid jet technique for the supersonic jet spectroscopy of bio and “nano-tech” molecules | Shun-ichi Ishiuchi | Tokyo Institute of Technology | Nano Bio |
| P4-18 | Gel Machines Constructed from Chemically cross-linked Muscle Proteins | Akira KAKUGO, Kazuhiro SHIKINAKA, Takehiro URA, Hyuckjoon KWON, Hidemitsu FURUKAWA, Jian Ping GONG, Yoshihito OSADA | Hokkaido University | Nano Bio |
| P4-19 | Nonracemic Dopant-Mediated Hierarchical Amplification of Macromolecular Helicity in a Charged Polyacetylene Leading to a Cholesteric Liquid Crystal in Water | Koichi Sakajiri, Kanji Nagai, Yoshihisa Takeyama, Katsuhiro Maeda, and Eiji Yashima | Japan Science & Technology Agency | Nano Bio |
| P4-20 | Analysis of Interaction between Cell-Substrate by novel spatial nano-controlled substrate | Ichiro Harada, Akiko Oguni, and Toshihiro Akaike | Tokyo Institute of Technology | Nano Bio |
