| 12 Organic Molecules and Bioelectronics |
| 12.1 Fabrication and Process |
| Sept. 15 9:15`12:00 |
| 15a-A - 1`10 |
|
1 |
Two-Dimensional Si-Nanodisk Array Fabricated Using Bio-Nano-Process and Neutral Beam Etching for Realistic Quantum Effect Devices (30 min.) |
@ 1, Seiji Samukawa1 |
|
2 |
Two-Dimensional Shower Source Method for Organic Thin-Film Evaporation |
University of Toyama1@Yoshiki Kamimura1, Hiroyuki Okada1, Shigeki Naka1 |
|
3 |
Study of the structure and electrical characteristics of organic ferroelectric thin film made by low vacuum deposition |
Kobe Univ.1, DAIKIN2@Airi Saitoh1, Tetsuhiro Kotani2, Meiten Kou2, Takashi Kanemura2, Yasuko Koshiba1, Satoshi Horie1, Masahiro Misaki1, Kenji Ishida1, Yasukiyo Ueda1 |
|
4 |
Real-time X-ray diffraction measurements of pentacene thin film growth |
JASRI1, Iwate Univ.2@Tomoyuki Koganezawa1, Takeshi Watanabe2, Ichiro Hirosawa1, Yoshimoto Noriyuki2 |
|
5 |
Growth of Pentacene Thin Films on Graphene Oxide |
Grad. Sch. of Science, The Univ. of Tokyo1, Grad. Sch. of Frontier Science, The Univ. of Tokyo2@Yoshio Kanamori1, Yasuhiro Yonezawa2, Koichiro Saiki1,2 |
|
6 |
Decomposition and film formation of pentacene molecule using heated metal mesh |
Univ. Hyogo1@Akira Heya1, Naoto Matsuo1 |
|
7 |
Dependence of the initial growth on substrate surface during organic vapor deposition |
Shizuoka Univ.1, Shizuoka Univ.2@Masaaki Kino1, Hitomi Nagata1, Kiyoshi Hagihara1, Takaya Ito2, Atsushi Kubono1,2 |
|
8 |
In-plane Orientational Control of DNTT Thin Films by Graphoepitaxy |
Chiba Univ.1@Toshiki Nagao1, Masatoshi Sakai1, Kazuhiro Kudo1, Masakazu Nakamura1 |
|
9 |
Analysis of Crystallization Mechanism of Uniaxially Oriented Organic Crystals by Using Synchrotron Radiation |
Kobe Univ.1, DAIKIN INDUSTRIES, LTD.2@Yusuke Kuroda1, Tetsuhiro Kodani2, Meiten Koh2, Takashi Kanemura2, Yasuko Koshiba1, Masahiro Misaki1, Satoshi Horie1, Kenji Ishida1, Yasukiyo Ueda1 |
|
10 |
Oriented Growth of Thin Organic Crystals by using Melting Methods |
Chiba Univ.1@Masatoshi Sakai1, Masato Ishiguro1, Atsuo Inoue1, Ryousuke Kikuchi1, Takashige Nagao1, Shuusuke Morita1, Hiroshi Yamauchi1, Masakazu Nakamura1, kazuhiro Kudo1 |
| 12.1 Fabrication and Process |
| Sept. 16 9:00`18:15 |
| 16a-K - 1`13 |
| ’ |
1 |
Fabrication of Ru complex multilayer films containing fullerene dervative on ITO |
AIST1, Tokyo University of Science2, Chuo Univ.3@iPCjKei-ichi Terada1, Hayato Ogawa2, Shinya Sasaki2, Katsuhiko Kanaizuka3, Masa-aki Haga3, Takao Ishida1 |
| ’ |
2 |
Stepwise Preparation of Redox-Active Complex Films and Their Structural Analysis |
Chuo Univ.1, KIT.2, JASRI/SPring-83@Katsuhiko Kanaizuka1, Takuya Nakabayashi1, Ryo Tamura1, Sono Sasaki2, Hiroki Ogawa3, Hiroyasu Masunaga3, Masa-aki Haga1 |
| ’ |
3 |
Fine tuning of metal nanowire conformation on the supramolecular gel soft-interface |
Tokyo Univ. of Sci.1@Hiroshi Endo1, Hiromitsu Tanuma1, Yuki Ito1, Takeshi Kawai1 |
| ’ |
4 |
Fabrication of Oriented Pi-Conjugated Polymer Films by Geometically-Asymmetric Structures |
Osaka Univ.1@Naoyuki Yamasaki1, Hideyuki Utsumi1, Yasuo Miyake1, Hiroyuki Yoshida1, Akihiko Fujii1, Masanori Ozaki1 |
| ’ |
5 |
Real-time X-ray Diffraction Measurements of Growing of Oligothiophene Thin Films |
Iwate Univ.1, JASRI2@iM2jTakeshi Watanabe1, Tomoyuki Koganezawa2, Ichiro Hirosawa2, Hiroki Muraoka1, Satoshi Ogawa1, Noriyuki Yoshimoto1 |
| ’ |
6 |
Evaluation of the film structure of polythiophene derivative by 2D-GIXD |
Kobe Univ1, RICOH2, JASRI3@Yuuki Hosokawa1, Masahiro Misaki1, Yasuko Koshiba1, kenzi Ishida1, Yasukiyo Ueda1, Satoshi Yamamoto2, Masashi Torii2, Kyouzi Tsutsui2, Tomoyuki Koganezawa3, Ichiro Hirosawa3 |
| ’ |
7 |
Crystallization behavior of pentacene precursor |
Kobe Univ.1@Yuki Murai1, Masahiro Misaki1, Yasuko Koshiba1, Kenji Ishida1, Yasukiyo Ueda1 |
| ’ |
8 |
Autonomous liquid-phase nanoscale processing for the large area fabrication of
nanoparticle-based parallel device arrays: advanced metal nanodot floating gate memory
|
Osaka Univ.1@Shin Matsuura1, Akira Watanabe1, Takuji Hosoi1, Watanabe Heiji1, Zettsu Nobuyuki1 |
| ’ |
9 |
Photopolymerization at surface plasmon-enhanced fields on gold nanostructures |
IMRAM, Tohoku Univ.1, Yamagata Univ.2, JST-PRESTO3@Takahiro Yokoyama1, Akito Masuhara2, Tsunenobu Onodera1, Hitoshi Kasai1,3, Hidetoshi Oikawa1 |
| ’ |
10 |
Optical Properties of Polydiacetylene(Core)-Silver(Shell) Type Hybridized Nanocrystals Thin film
|
IMRAM Tohoku Univ.1, AIST2, Grad. Sch. of Sci. Eng., Yamagata Univ.3, JST-PRESTO4@Kohei Takahashi1, Tatsumi Kimura2, Daisuke Ishikawa1, Tsunenobu Onodera1, Akito Masuhara3, Satoru Shimada2, Hitoshi Kasai1,4, Hidetoshi Oikawa1 |
| ’ |
11 |
Preparation of Hollow In2O3 Nanoparticles by Sputter-deposition of In into Ionic Liquids |
Nagoya Univ.1, Hokkaido Univ.2, Osaka Univ.3, JST-CREST4@iDCjToshimasa Suzuki1, Ken-ichi Okazaki1, Shushi Suzuki1, Tamaki Shibayama2, Susumu Kuwabata3,4, Tsukasa Torimoto1,4 |
| ’ |
12 |
Flux-epitaxy for organic single crystals with ionic-liquids in vacuum |
MSL Tokyo Tech.1@Yoko Takeyama1, Yuji Matsumoto1 |
| ’ |
13 |
Studies on the evaporation processes of organic molecules using TG/QCM simultaneous measurements in vacuum |
Graduate School of Eng.,Kobe Univ.1@Masahiro Tsuno, Masato Ayano, Yasuko Koshiba, Masahiro Misaki, Satoshi Horie, Kenji Isida, Yasukiyo Ueda |
| |
|
Lunch 12:15`13:15 |
|
| 16p-K - 1`19 |
|
1 |
Analysis of the Polymer Thin Film Formation in Vapor Deposition Polymerization |
Shizuoka Univ.1, Shizuoka Univ.2@Takaya Ito1, Masaaki Kino2, Nozomi Yamamoto2, Kiyoshi Hagihara2, Atsushi Kubono1,2 |
|
2 |
Vapor Deposition Polymerization of polyimide thin films having different types of semiconductor moieties within a single molecule. |
Shizuoka Univ.1@Nozomi Yamamoto1, Takaya Ito1, Atsushi Kubono1 |
|
3 |
Fabrication of fluorocarbon polymer thin films by deposition polymerization assisted by ion irradiation. |
Tokyo univ. Agriculture & Technology1, Sumitomo Precision Products Co.,Ltd2@Tsuyoshi Matsuda1, Kazuo Senda2, Kuniaki Tanaka1, Hiroaki Usui1 |
|
4 |
Size tuning of oligomer in the local polymerization between C60 molecules |
NIMS MANA1, Osaka Univ.2, Univ. of Tsukuba3@iPCjMasato Nakaya1, Yuji Kuwahara2, Masakazu Aono1, Tomonobu Nakayama1,3 |
|
5 |
Polymerization of C60 film deposited under in-situ UV light irradiation |
Inst. Mat. Sci. Univ. of Tsukuba1, JAERI2@iM2jTakahiro Nozawa1,2, Hisanori Tanimoto1, Seiji Sakai2, Yoshihiro Matsumoto2, Shiro Entani2 |
|
6 |
Investigation of the elasticity of PMMA nano-wires fabricated by two-photon lithography |
Osaka Univ.1, RIKEN2@Tomoki Hamano1, Satoru Shoji1, Shouta Kuwahara1, Satoshi Kawata1,2 |
|
7 |
Effect for chitosan nanofiber filter of electrospinning time and humidity |
Grad. Sch. Sci. Tech.,Keio Univ.1, Nitta Co.2@iM1CjKeiichiro Tombe1, Miho Okamoto1, Seimei Shiratori1, Makoto Shigeta2, Masahiko Nagata2, Keizo Okui2 |
|
8 |
Fabrication of nylon nanofibers and filter application |
Grad.Sch.Sci.Tech. Keio Univ.1, Nitta Co.2@Miho Okamoto1, Seimei Shiratori1, Makoto Shigeta2, Masahiko Nagata2, Keizo Okui2 |
|
9 |
UV/vis Spectra of the Prepared PCDTBT/PC61BM-BHJ Active Layers by Spray Coating Method |
Aichi Inst. of Tech1@Leona Saitou1, Kenzo Kojima1, Teruyoshi Mizutani1, Sizuyasu Ochiai1 |
|
10 |
Evaluation of the Characteristic of Organic Thin Film Prepared Using Spray-coating Method and Fabricated by PCDTBT |
Aichi Inst. of Tech1@Yoshinori Murakami1, Kenzo Kojima1, Teruyoshi Mizutani1, Shizuyasu Ochiai1 |
| |
|
Break 15:45`16:00 |
|
|
11 |
Fabrication of transparent conductive thin film using automatic Spray-LBL method |
Keio Univ.1@Jyunichiro Abe1, Nanae Fukao1, kouji hujimoto1, Kimiaki Muraguchi1 |
|
12 |
Relationship between organic solvent and deposition area for electrospray deposition method |
Saitama Univ.1, RIKEN2@Asaki Hirotaka1,2, Asano Takashi1,2, Takagi Kenji1,2, Fukuda Takeshi1,2, Ju Jungmyoung2, Honda Zentarou1, Kamata Norihiko1, Yamagata Yutaka2 |
|
13 |
Bulk Heterojunction Organic Solar Cell Fabricated by Electrospray Deposition |
Saitama Univ.1, RIKEN2@Takashi Asano1,2, Kenji Takagi1,2, Hirotaka Asaki1,2, Takeshi Hukuda1,2, Jungmyoung Ju2, Norihiko Kamata1, Tetsuya Aoyama2, Yusuke Tajima2, Yutaka Yamagata2 |
|
14 |
Photo-Assisted KPFM Imaging and Processes of Donor-Acceptor Spatial
Distribution in Structured Photovoltaic Device |
Faculty of Sci. and Tech., Tokyo Univ. of Sci.1, Faculty of Industrial Sci. and Tech., Tokyo Univ. of Sci.2, RIKEN3@Masako Fukasawa1, Satoshi Watanabe2, yusuke Tajima3, Yasumasa Fukuchi1, Takafumi Sassa3, Takashi Yamashita1, Mutsuyoshi Matsumoto2, Tetsuya Aoyama3 |
|
15 |
Investigation of Deposition Conditions for PCBM and Application to Organic Thin Film Photovoltaic Cells using Electrospray Deposition |
Univ. of Tokyo1, RIKEN2, Saitama Univ3@Namkyu Kang1, 2, Jungmyoung Ju2, Yutaka Yamagata2, Takashi Asano3, Takeshi Fukuda3, Tetsuya Aoyama2, Yusuke Tajima2, Norihiko Kamata3, Toshiro Higuchi1, 2 |
|
16 |
Fabrication and Evaluation of PEDOT-PSS counter electrodes by Layer-by-Layer Self assembly method : Application to Dye-Sensitized Solar Cells |
Grad. Sch. Sci. Tech. Keio Univ.1@koji kitamura1, junichiro Abe1, seimei Shiratori1 |
|
17 |
Fabication of the highly-durable superoleophobic thin film made of nano-particles |
Keio Univ1@Takato Touji1, Seimei Shiratori1 |
|
18 |
Hydrophilic self-standing film fabricated by layer-by-layer self-assembly method |
Keio Univ1@Kohei Inoue1, Motomi Matsuda1, Seimei Shiratori1 |
|
19 |
Control of wettability by Layer-by-Layer Self-assembly to nanoparticles |
Grad. Sch. Sci. Tech., Keio Univ.1@Shingo Nishizawa1, Seimei Shiratori1 |
| 12.1 Fabrication and Process |
| Sept. 17 9:00`15:00 |
| 17a-K - 1`11 |
|
1 |
Spin-coating deposition and characterization of Alq3 thin films |
Kyoto Univ.1, Kyoto Univ.2, Kyoto Univ.3@Jinchun Piao1, Shigetaka Katori1, Shizuo Fujita1 |
|
2 |
Modification of ITO surface by WO3 /SAM layer |
Tokyo Univ Agriculture & Technology1@Hanae Ohtsuka1, Seong-Ho Kim1, Kuniaki Tanaka1, Hiroaki Usui1 |
|
3 |
Preparation of atomic stepped SiC surface for Organic SBD |
Nagoya Institute of Technology1, POVAL KOGYO Co.,Ltd.2, Fujimi Incorporated3@Yayoi Tanaka1, Takashi Kanda2, Kazuyuki Nagatoshi3, Osamu Eryu1 |
|
4 |
Functionalization of Silica Surface by Tetrahydroxyporphyrin via Si-O Linkages. |
Doshisha Univ.1@Nao Furuta1, Nagisa Minamijima1, Shintaro Wakunami1, Tadashi Mizutani1 |
|
5 |
Preparation of Langmuir-Blodgett@films@of@PbBr-based@layered@pervskite@having@phenylenevinylene@chromophore@as@an@organic layer |
Saga University, Faculty of Science and Engineering, Department of Chemistry and Applied Chemistry1@Masanao Era1, Yu Shironita1 |
|
6 |
IR Study on N(C18H37)2(CH3)2-Ca2Nb3O10 nanosheet complex Langmuir-Blodgett Films |
NRI, AIST1, RCCCS, AIST2, NERI, AIST3@Keiichi Ikegami1, Yasushi Hoshi2, Takeo Ebina2, Hiroshi Takashima3 |
|
7 |
Structural Control of the Alkylammonium-Au(dmit)2 LB films using Thermal Treatment (II)
|
Toin Univ. of Yokohama1@Yasuhiro Miura1, Naoki Sugimoto1, Hironari Akiyama1, Jun-ichi Hoshino1, Kyoko Inoue1, Michio Sugi1 |
|
8 |
Langmuir and Langmuir-Blodgett films using Amphiphilic Peptides |
Meiji@Univ.1@Ken Togashi, Takumi Iizuka, Noritaka Kato, Takanori Sasaki, Yuri Ikeda |
|
9 |
Widening Absorption Bands in Multi-Dye Stacked Structures Fabricated by Liquid-Phase Molecular Layer Deposition
|
Tokyo Univ. of Technology1@Chie Yoshino1, Tetsuzo Yoshimura1 |
|
10 |
Aqueous Dispersion of J-Aggregates Prepared by Polyion Complexation |
Meiji Univ.1, Utsunomiya Univ.2@Haruyuki Semba1, Masakazu Takata1, Noritaka Kato1, ken-ichi Iimura2 |
|
11 |
Highly-Fluorescent Novel Dye Aggregate Different from neither J-Aggregate nor H-Aggregate: Contribution of Surface SiO2 Layer Existence |
OECU1, OECU2@Kazuhisa Iwamoto1, Takaya Takeuchi2, Eri Tanaka2, Akihiro Tomioka1,2, Takahiro Anzai1 |
| |
|
Lunch 11:45`12:45 |
|
| 17p-K - 1`9 |
|
1 |
Surface free energy analysis by using small droplet ejected with ink-jet |
JAIST1, Keio Univ.2, PRESTO JST3, ERATO SHIMODA Nano-Liquid Process Project, JST4@Kazuhiro Fukada1, Hayato Sakai2, Taku Hasobe2,3, Takashi Masuda4, Tatsuya Shimoda1,4 |
|
2 |
Interfacial-Energy-Controlled Deposition Technique of Microstructures Using Blade-Coating |
Panasonic1@Hidekazu Arase1, Tohru Nakagawa1 |
|
3 |
Direct Patterning of Metal Oxide Film by Photolithography with Surface-modified Nanoparticles
|
Tech. R&D Dept., Central Japan Railway Company1@Akimasa Nakamura1, Masako Jimbo1, Masayoshi Shimo1, Christopher Cordonier1, Akira Fujishima1 |
|
4 |
Arrangement of gold nanoparticles on ITO substrate by scanning probe lithography |
Kyoto Univ.1@iDjJEONGHYEON YANG1, TAKAHIRO HIGASINO1, TAKASI ICHII1, KUNIAKI MURASE1, HIROYUKI SUGIMURA1 |
|
5 |
Immobilization of gold nanoparticles on silicon substrates by visible light irradiation II |
Kyoto Univ.1@iM2jKosuke Yamashiro1, Takashi Ichii1, Kuniaki Murase1, Hiroyuki Sugimura1 |
|
6 |
Fabrication of Ring-shaped Nanoparticles Array via a Self-assembly of Colloidal Gold Nanoparticles by Capillary Force |
Nagoya Univ.1@Ken-ichi Okazaki1, Masaya Okada1, Tsukasa Torimoto1 |
|
7 |
Wafer-scale Fabrication of Nanogap Arrays and its Application for Plasmonic Sensor |
RIKEN1, JST CREST2@Wakana Kubo1, Shigenori Fujikawa1,2, Takuo Tanaka1 |
|
8 |
Lower dielectric constant of porous polyimide film using fabricated by silica microparticle as a template |
IMRAM Tohoku Univ.1, AIST2, PRESTO-JST3@Takeru Hayashi1, Tsunenobu Onodera1, Takayuki Ishizaka2, Hitoshi Kasai1,3, Hidetoshi Oikawa1 |
|
9 |
Density Multiplication of EB lithographically Patterned Template by Chemically Directed Self-assembly of Cage Silsesquioxane Containing Block Copolymer via Controlled Solvent Annealing |
Material Research Lab., Hitachi Ltd.1, Kyoto Univ.2, Tokyo Inst. of Tech.3, Hitachi Global Storage Technologies San Joe Research Lab.4@Yasuhiko Tada1, Hiroshi Yoshida1, Tomoyasu g3, Yoshihito Ishida3, Joan Bosworth4, Elizabeth Dobisz4, Ricardo Ruiz4, Teruaki Hayakawa3, Mikihito Takenaka2, Hirokazu Hasegawa2 |
| 12.2 Characterization and Fundamental Properties |
| Sept. 14 9:00`18:00 |
| 14a-K - 1`11 |
|
1 |
Optical Characteristics and Surface Morphology of the Organic Thin-film BHJ Prepared with Three Kinds of Semiconducting Polymers |
Aichi Inst. of Tech.1@iM1jKatsuhiko Kato1, Teruyoshi Mizutani1, Kenzo Kojima1, Shizuyasu Ochiai1 |
|
2 |
Sum-Frequency Generation Study of Poly vinylidene-fluoride (PVDF) |
Nagoya Univ.1, Kanazawa Inst. Tech.2@Kenji Ishikawa1, Akihiko Kono2, Hideo Horibe2, Keigo Takeda1, Hiroki Kondo1, Makoto Sekine1, Masaru Hori1 |
|
3 |
Epitaxial growth and electronic structure of DPh-BTBT monolayer films |
Univ. Tokyo1, Hokkaido Univ.2@iDjManabu Ohtomo1, Tetsuya Hasegawa1, Toshihiro Shimada2 |
|
4 |
Modification of metal surface electronic structure by n-alkane molecular adsorption |
Tokyo Univ. of Sci.1, ISSP. Univ. of Tokyo2@Tomoko Shikano1, Kaname Kanai1, Kenji Koizumi2, Yukiaki Ishida2, Shik Shin2 |
|
5 |
Geometric and electronic structures of extrathin networks comprising planar molecules capable of hydrogen bonding in three directions |
Grad. Sch. Engin., Tokyo Univ. Agric. & Technol.1, Grad. Sch. Nanobiosci., Yokohama City Univ.2@Shunya Yamazaki1, Yusuke Sueyoshi1, Keiji Matsumoto1, Motoki Tsuboi1, Ryosuke Sasaki1, Kenta Sakamoto1, Hiroyuki Ozaki1, Osamu Endo1, Hideyuki Tukada2 |
|
6 |
Electronic structure of TNAP on Bismuth (001) |
CFS, Chiba Univ.1, AIS, Chiba Univ.2, IMSS, KEK3, ISSP, Univ. Tokyo4@Tatsuhiko Nishi1, Takuya Kuzumaki2, Hiroyuki Machida2, Kazuhiko Mase3, Nobuo Ueno2, Jun Yoshinobu4, Kazuyuki Sakamoto2 |
| |
|
Break 10:30`10:45 |
|
|
7 |
Elucidation of electronic structure of conductive polymer interfaces |
Tokyo Univ. of Science1, Nagoya Univ.2, Okayama Univ.3@Kaname Kanai1, Takahiro Miyazaki2, Kentaro Sakai2, Takanori Wakita3, Yukio Ouchi2, Takayoshi Yokoya3 |
|
8 |
Investigation on unoccupied states in donor/acceptor blended films with inverse photoemission spectroscopy |
Nagoya Univ.1, Okayama Univ.2, Augsburg Univ.3, Tokyo Univ. of Sci.4@Kouki Akaike1,2, Andreas Opitz3, Julia Wagner3, Wolfgang Bruetting3, Kaname Kanai4, Yoshihiro Kubozono2, Yukio Ouchi1, Kazuhiko Seki1 |
|
9 |
Band diagrams of Alq3/Nb:SrTiO3 interfaces studied by in situ photoemission spectroscopy |
The Univ. of Tokyo1, JST-PRESTO2, UT-SRRO3, JST-CREST4@iM2jTakashi Okabe1, Makoto Minohara1, Kouhei Yoshimatsu1, Hiroshi Kumigashira1,2,3, Masaharu Oshima1,3,4 |
|
10 |
Study on Electronic Structure of Interface between Electrode and Liquid-Crystalline Organic Semiconductor |
None1, Tokyo Inst. Tech.2, Tokyo Polytech. Univ.3@Tadaaki Tani, Hiroaki Iino1, Takayuki Uchida2, Jun-ichi Hanna1 |
|
11 |
Depth profiling of energy levels by Angle resolved X-ray photoemission spectroscopy: electronic structure of buried organic/metal interface |
Kyoto Univ.1, JST PRESTO2, Riken3@Hiroyuki Yoshida1,2, Eisuke Ito3, Masahiko Hara3, Naoki Sato1 |
| |
|
Lunch 12:00`13:00 |
|
| 14p-K - 1`19 |
|
1 |
Alignment and orientation of aromatic thiols adsorbed on gold single crystal |
Kumamoto Univ.1, RIKEN2, AIST3@Katsuhiko Nishiyama1, Hiroshi Harada1, Taro Yamada2, Soichiro Yoshimoto1, Takahiro Sawaguchi3, Isao Taniguchi1 |
|
2 |
Activation energy of flipping behavior of porphyrin derivative on Au (111) |
Hiroshima Univ.1, NICT2@Hitoshi Suzuki1,2, Hirofumi Yoshida1,2, Hiroyuki Sakaue1, Takayuki Takahagi1, Shukichi Tanaka2, Toshiya Kamikado2, Akira Otomo2 |
|
3 |
GMR through single phthalocyanine molecule by means of spin-polarized STM |
Chiba@Univ.1, Karlsruhe Institute of Technology (KIT)2@Toyokazu Yamada1,2, S. Schmaus2, A. Bagrets2, Y. Nahas2, A. Bork2, F. Evers2, W. Wulfhekel2 |
|
4 |
Quantification of Electron Transfer between Single Molecules by Molecular STM Tips |
Osaka Prefecture Univ.1, PRESTO2@Tomoaki Nishino1,2 |
| £’ |
5 |
Temperature Dependence of Electrical Conductance of Single Oligothiophene Molecules |
Osaka University1, Institute for Molecular Science2, Osaka University3, Osaka University4@iM2jSee Kei Lee1, Shoji Tanaka2, Ryo Yamada1, Hirokazu Tada1 |
| ’ |
6 |
Single-electron tunneling of molecular Coulomb islands embedded in MIS devices |
NIMS ICYS-MANA1, NIMS AEMC2@Ryoma Hayakawa1,2, Nobuya Hiroshiba2, Toyohiro Chikyow2, Yutaka Wakayama2 |
|
7 |
Fabrication of Coulomb blockade array using self-assembled giant molecules |
ISIR-SANKEN Osaka Univ.1@Yuji Segawa, Yusuke Miyake, Yoshiaki Hirano, Takuya Matsumoto, Tomoji Kawai |
|
8 |
Stochastic resonance and signal recovery using self-organized huge-molecular network devices. |
ISIR, Osaka Univ.1@Takuya Matsumoto1, Yuji Segawa1, Yusuke Miyake1, Yoshiaki Hirano1, Tomoji Kawai1 |
|
9 |
Superior Long-range Electron-Transport through Ru Complex Multilayers on ITO |
AIST1, Tokyo Univ. of Sci.2, Chou Univ.3@Takao Ishida1, Kei-ichi Terada1, Hayato Ogawa2, Shinya Sasaki2, Katsuhiko Kanaizuka3, Masa-aki Haga3 |
| |
|
Break 15:15`15:30 |
|
|
10 |
Electrochemical characterization of semiconductor properties of pentacene thin films by using ionic liquids as electrolyte in vacuum |
Tokyo Tech MSL1@Shingo Maruyama1, Yuji Matsumoto1 |
| £’ |
11 |
Investigation of interfacial charging and discharging in double- layer devices with one blocking layer by time-resolved second harmonic generation |
Tokyo Tech1, Slovak Acad. Sciences2@Le Zhang1, Dai Taguchi1, Jun Li1, Martin Weis2, Takaaki Manaka1, Mitsumasa Iwamoto1 |
|
12 |
Mobility measurement of a rubrene single crystal by a lateral time-of-flight method |
AIS, Chiba Univ.1, CFS, Cniba Univ.2@Naoki Ogawa1, Akihiro Funakoshi1, Yasuo Nakayama2, Yutaka Noguchi1,2, Hisao Ishii1,2 |
|
13 |
Surface potential study of pentacene thin film transistors by FM-KFM |
Dept. of Electronic Sci. & Eng., Kyoto Univ.1, SACI, Kyoto Univ.2@Yasuhiro Ohashi1, Masaharu Hirose1, Eika Tsunemi1, Kei Noda1, Kei Kobayashi2, Hirofumi Yamada1, Kazumi Matsushige1 |
|
14 |
Electric conduction of PbBr-based layered perovskite film which
carbazole-chromophore incorporated into organic layer |
Saga University, Faculty of Science and Engineering, Department of Chemistry and Applied Chemistry1@Masanao Era1, Tomohiro Kobayashi1 |
|
15 |
Doping effect for helical poly-acetylene |
Canon Frontier Reserch Centre1@Koji Yano, Otto Albrecht, Kunihiro Mitsutake, Takeyuki Sone, Kazuaki Ohmi |
|
16 |
Undulation pattern observed on the surface potential of Alq3 thin films |
RIKEN1@Kazunari Ozasa1, Hiromi Ito1, Mizuo Maeda1, Masahiko Hara1 |
|
17 |
Measurement of surface potential distribution in liquids by Kelvin Probe Force Microscope |
Tokyo Univ. of Agri. and Tech.1, TDK Corp.2@Kenta Sasatani1, Yasuyuki Masuda1, Kenichi Yoshida2, Takeshi Shimomura1 |
|
18 |
Surface structure and frictional properties on alkyl-monolayers |
Tokyo Univ. of Sci., Yamaguchi1@iM1jAiko Sato, Yusuke Harada, Hitoshi Asano, Mitsuru Takenaga |
|
19 |
New proposal for characterization of mechanical strength of materials
by cutting strength
|
The University of Tokyo1, Daipla Wintesu Co. Ltd.2, KEK3@Fuminori Saito1, Itsuo Nishiyama2, Toshio Hyodo3 |
| 12.3 Electro-Functional Materials and Devices |
| Sept. 14 9:00`16:45 |
| 14a-R - 1`11 |
| £ |
1 |
Hydrothermally Prepared TiO2 Nanorod Used in Dye-sensitized Solar Cells |
Grad. Schl. Sci. Technol., Shizuoka Univ.1, Res. Inst. Electron., Shizuoka Univ.2@Bin Ahmad Mohd Khairul1, Kenji Murakami2 |
| £ |
2 |
The effect of substituents of sensitizing dyes upon the apparent diffusion of dyes and redox species in nanoporous TiO2 |
Kyushu Inst.1@Azwar HAYAT1, KEUN-YOUNG LEE1, SHYAM PANDEY1, YUHEI OGOMI1, SHUZI HAYASE1 |
|
3 |
New concept hybrid dye sensitized solar cells sensitized with phthalocyanine, naphthalocyanine and visible dyes |
Kyushu Inst.1, Sogo Pharm. Co. Ltd.2@Byungwook Park1, Rie Watanabe1, Yuhei Ogomi1, Akari Miyamoto2, Shinsuke Fujita2, Shyam S. Pandey1, Shuzi Hayase1 |
|
4 |
Optical Simulation of Cylinder Type TCO-less Dye Sensitized Solar Cell Module |
Kyushu Inst.1@Sho Noguchi1, Jun Usagawa1, Yuhei Ogomi1, Shyam-S. Pandey1, Shuzi Hayase1 |
|
5 |
Investigation of Cylinder Type TCO-less Dye Sensitized Solar Cells |
Kyushu Inst.Tec1@Jun Usagawa1, Takeshi Kogo1, Byung-wook Park1, Yuhei Ogomi1, Shuzi Hayase1 |
|
6 |
Fabrication of Organic Photovoltaic cells by Using Air Atomizing Spray Vapor Deposition |
Kyushu Inst. Tech.1@Takafumi Mizuno1, Yuhei Ogomi1, Shyam Sudhir Pandey1, Shuzi Hayase1 |
| |
|
Break 10:30`10:45 |
|
|
7 |
Fabrication of Pt-Saving Counter Electrode through Spray Pyrolysis Deposition for Dye-sensitized Solar Cells |
Res. Inst. Electron., Shizuoka Univ.1@Kenji Murakami, Sho Fujiwara, Daisuke Kobayashi, Hiroki Ishihara, Masaru Shimomura |
|
8 |
Investigation of correlation between nanostructure of electrodeposited ZnO film and their properties in photoelectrodes |
Gifu Univ.1@Shingo Kawakata1, Shigeo Hori1, Tsukasa Yoshida1 |
|
9 |
Selective electrochemical self-assembly of semiconductor / dye hybrid thin films |
Gifu Univ.1@Lina Sun1, Keigo Ichinose1, Takashi Sugiura1, Tsukasa Yoshida1 |
|
10 |
Fabrication of Grating-Coupling Surface Plasmon Enhanced Dye-Sensitized Solar Cell |
Graduate school of Sci. & Tech ,Niigata Univ.1, Center for Transdisciplinary Research, Niigata Univ.2@Keisuke Wakatsuki1, Akira Baba2, Kazunari Shinbo1,2, Keizo Kato1,2, Futao Kaneko1,2 |
|
11 |
Impedance spectroscopy in dye-sensitized solar cells - negative capacitance and recombination process - |
Osaka Prefecture University1, RIMED2, National Institute for Materials Science3, JST-CREST4@Hiroyuki Hase1, Takashi Nagase1,2, Takashi Kobayashi1,2, Masatoshi Yanagida3,4, Liyuan Han1,2,3,4, Hiroyoshi Naito1,2,4 |
| |
|
Lunch 12:00`13:00 |
|
| 14p-R - 1`14 |
|
1 |
Interfacial Segregation at the Al Electrode of Polythiophene/Fullerene Solar Cells |
Kyoto Univ.1, JST PRESTO2@Hideo Ohkita1,2, Akiko Orimo1, Hiroaki Benten1, Shinzaburo Ito1 |
|
2 |
Organic solar cells with anode buffer layer containing Au nanoparticles |
Graduate School of Engineering Sciences, Kyushu Univ.1, IMCE, Kyushu Univ.2, Nissan Chemical Industries, Ltd.3@iM2jRyo Morioka1, Kei Yasui3, Masaaki Ozawa3, Keisuke Odoi3, Hisashi Ichikawa2, Katsuhiko Fujita1,2 |
|
3 |
Fabrication of a solution-processed organic thin film solar cell using graphene oxide as a hole transporting layer |
Saitama Univ.1, Saitama Univ.2, Mitsubishi Gas Chemical Company3@iM1jYosuke Kubo1, Tatsuya Hayashi1, Tomohisa Ino1, Yoshiyuki Muramatsu2, Hajime Shirai1,2, Takuya Gotou3, Keiji Ueno1 |
|
4 |
CuPc/C60 solar cells using graphene oxide as hole transporting layers |
Saitama Univ.1, Saitama Univ.2, Mitsubishi Gas Chemical Company3@iM2jTatsuya Hayashi1, Tomohisa Ino1, Yoshiyuki Muramatsu2, Yosuke Kubo1, Ryou Ishikawa1, Takuya Gotou3, Keiji Ueno1, Hajime Shirai1,2 |
|
5 |
Fabrication of a molybdenum trioxide hole transport layer from a thin film of exfoliated molybdenum disulfide |
Saitama Univ.1@iM2jSyogo Kato1, Yosuke Kubo1, Hajime Shirai1, Keiji Ueno1 |
|
6 |
Verification of Effects of Titanium-oxide Interlayer for Polymer Solar Cells |
AIST1, Kobe Univ.2, TUS3@Kenichi Sasaki1,2, Toshihiro Yamanari1, Yuji Yoshida1, Masafumi Yamashita3, Yasukiyo Ueda2 |
|
7 |
Mechanism of ambipolar transport of fullerene in low-bandgap polymer solar cells |
Kyoto Univ.1, JST PRESTO2@Shunsuke Yamamoto1, Hideo Ohkita1,2, Hiroaki Benten1, Shinzaburo Ito1 |
| |
|
Break 14:45`15:00 |
|
|
8 |
Carrier dynamics in bulk heterojunction solar cell studied by modulation spectroscopy |
Osaka Pref. Univ.1, RIMED2, JST-CREST3@Wataru Shinke1, Takashi Kobayashi1,2, Takashi Nagase1,2, Hiroyoshi Naito1,2,3 |
|
9 |
Evaluation of bulk-heterojunction organic thin-film solar cells by light-induced electron spin resonance |
Univ. of Tsukuba1, JST PRESTO2, Nagoya Univ.3@iM1jTakayuki Hori1, Kazuhiro Marumoto1,2, Atushi Kosuga1, Tatsuo Mori3 |
|
10 |
Determination of physical parameters in organic bulk heterojunction solar cells using a genetic algorithm |
Osaka Pref. Univ.1, RIMED2, JST-CREST3@kohei nishida1, hiroyuki hase1, takashi nagase1,2, takashi kobayashi1,2, hiroyoshi naito1,2,3 |
|
11 |
Carrier Transport Characteristics in P3HT: PCBM Bulk Heterojunction Organic Solar Cells |
Univ. Toyama1@Yanhui Lou1, Zhaokui Wang1, Shigeki Naka1, Hiroyuki Okada1 |
|
12 |
Near-field fluorescence imaging of the active layer of organic solar cells |
Keio Univ.1, ideal star inc.2@Hiroki Sakurai1, Eisuke Takashima1, Kenji Omote2, Toshiharu Saiki1 |
|
13 |
Evaluation of the Performance of Organic Thin Film Solar Cell Fabricated by the Active Layer of Poly(3-Hexylthiophene)/PC71BM Added by Poly(3-Octylthiophene) |
Aichi Inst. of Tech.1@Shogo Imamura1, Teruyoshi Mizutani1, Kenzo Kojima1, Shizuyasu Ochiai1 |
|
14 |
Performance of Organic Thin Film Solar Cell Structured by Active Layer Prepared with Poly[9, 9-dioctyl-fluorene-co-bithiophene] (F8T2) |
Aichi Inst of Tech1@Shinya Shimato1, Teruyoshi Mizutani1, Kenzo Kojima1, Shizuyasu Ochiai1 |
| 12.3 Electro-Functional Materials and Devices |
| Sept. 15 9:00`17:15 |
| 15a-R - 1`11 |
|
1 |
Fabrication of organic thin-film solar cells using ZnO nanorods |
Grad.Sch.Sci.Tech.Keio University1@Takafumi Ichikawa1, Junichiro Abe1, Seimei Shiratori1 |
|
2 |
Organic Photovoltaic Properties of Fullerene Derivatives with Fluoroalkyl group |
ISIR, Osaka Univ.1, Daikin Industries, LTD2@Makoto Karakawa1, Takabumi Nagai2, Tomomi Irita2, Yutaka Ie1, Yoshio Aso1 |
|
3 |
Photo-electric Conversion Characteristics of C60 single crystals |
IMS1, CREST/JST2@Yusuke Shinmura1,2, Toshihiko Kaji1,2, Kai Iketaki1,2, Masahiro Hiramoto1,2 |
|
4 |
CuPc/C60 Bulk Heterojunction Photovoltaic Cells using C60 Columnar Structures Prepared by Solvent Vapor Treatment |
Shinshu Univ.1, JST-PRESTO2@Yoshimi Sunohara1, Hyeon-Gu Jeon1, Musubu Ichikawa1,2 |
|
5 |
Role of plasma treatment on PEDOT:PSS for the CuPc/C60 thin-film solar cells |
Saitama@Univ.1@Tomohisa Ino1, Tatuya Hayashi1, Ryou Ishikawa1, Kouichi Suganuma1, Keiji Ueno1, Hajime Shirai1 |
|
6 |
The effect of the number of layers on photocurrent in multilayered organic solar cells with through-layer electrodes |
J-Power1, Tokyo Institute of Technology2@Takuya Orikoshi1, Toshiaki Nishii1, Jun Onoe2 |
| |
|
Break 10:30`10:45 |
|
|
7 |
Role of organic buffer layers on performance of lead phthalocyanine-based solar cells |
Univ. of Tsukuba1, KEK-IMSS2@Takeaki Sakurai1, Tatsuya Ohashi1, Hikaru Kitazume1, Masato Kubota2, Takashi Suemasu1, Katsuhiro Akimoto1 |
|
8 |
Study on formation of dipole layer at organic/metal interfaces |
Univ. of Tsukuba1, KEK-IMSS2@Takeaki Sakurai1, Akihisa Baba1, Ronit Prakash1, Kazuhiko Mase2, Katsuhiro Akimoto1 |
|
9 |
Fabrication and Performance of Bulk-Heterojunction Organic Solar Cells Using an Amorphous Molecular Material with High Hole Drift Mobility |
Fac.Eng., Osaka Univ.1, Osaka Univ. CASI2, Fukui Univ. Technol.3@Hiroshi Kageyama1, Hitoshi Ohishi1, Masatake Tanaka1, Yutaka Ohmori2, Yasuhiko Shirota3 |
|
10 |
Application of DNTT Derivatives with High Mobility to Organic Thin-Film Solar Cells and Structure-Property Correlation |
Hiroshima Univ.1@Hiroki Mori1, Myeong-jin Kang1, Shoji Shinamura1, Itaru Osaka1, Eigo Miyazaki1, Kazuo Takimiya1 |
|
11 |
Organic Photovoltaic Devices Using Near-IR Absorbing Material |
The Univ. of Tokyo1, JST/ERATO2, Mitsubishi Chemical Group Science and Technology Research Center, Inc.3@Naoki Obata1,2,3, Yoshiharu Sato2,3, Yutaka Matsuo1,2, Eiichi Nakamura1,2 |
| |
|
Lunch 12:00`13:00 |
|
| 15p-R - 1`16 |
|
1 |
Degradation analysis for organic solar cells |
AIST RCPV1, JST-PRESTO2, ITES3, Panasonic Electric Works4@Toshihiro Yamanari1, Tetsuya Taima1,2, Yoshitaka Toyoda3, Jun Sakai4, Yuji Yoshida1 |
| ’ |
2 |
Exciton diffusion mechanism in organic single-crystal photovoltaic cells |
AIST1, JST-PREST2@Tetsuhiko Miyadera1, Noboru Ohashi1, Tetsuya Taima1,2, Toshihiro Yamanari1, Yuji Yoshida1 |
| ’ |
3 |
Application of Ambipolar Tetracene Derivatives for p-n type Organic Thin-film Solar Cells |
The Univ. of Tokyo1@Tsuyoshi Suzuki1, Toshihiro Okamoto1, Hideyuki Tanaka1, Yutaka Matsuo1 |
| ’ |
4 |
Small-Molecular Organic Solar Cells with Pentacene/Ag Composite Anode |
Ritsumeikan Univ.1@iM1jTatsuya Oida1, Tatsuhiro Naito1, Yuki Miyagawa1, Kenji Harafuji1 |
| ’ |
5 |
Relationship between the ionization potential of p type semiconductor and open circuit voltage of organic solar cells and the effect of hole collection layers |
Shinshu Univ.1@Toshiki Shirotori1, Eiji Itoh1 |
| ’ |
6 |
Direct Estimation of Energy Level Difference at Organic pn Junction Interface by Internal Photoemission Spectroscopy and Temperature dependence of Open-circuit Voltage |
Shinshu Univ1@Kenta Okuhara1, Eiji Ito1 |
| £’ |
7 |
Large area graphene sheet as transparent electrode for solar cells |
Chubu University1@Golap Kalita1, Masahiro Matsushima1, Koichi Wakita1, Masayoshi Umeno1 |
| |
|
Break 14:45`15:00 |
|
| ’ |
8 |
Behavior of J-V characteristics of organic photovoltaic cells just after fabrication, and the effect of organic-inorganic interface on the behavior of characteristics |
Kobe Univ.1@Hiroyuki Saeki1, Masahiro Misaki1, Yasuko Koshiba1, Satoshi Horie1, Kenji Ishida1, Yasukiyo Ueda1 |
| ’ |
9 |
Characterization of inverted organic solar cells using TiOx film prepared as electron collecting layer by chemical bath deposition |
Kanazawa Univ.1@Mitsuhiro Kuzuba1, Takayuki Kuwabara1, Takahiro Yamaguchi1, Koshin Takahashi1 |
| ’ |
10 |
Development of inverted type organic thin film solar cells on PET film substrate |
Kanazawa Univ.1@Ikumi Sasajima1, Takayuki Kuwabara1, Takahiro Yamaguchi1, Koshin Takahashi1 |
| ’ |
11 |
Study for fabrication of organic solar cells by non-vacuum vapor deposition |
Graduate School of Engineering, Kyoto Univ.1, Institute of Advanced Energy, Kyoto Univ.2, Touki3@Takumi Ikenoue1, Jae Hyeong Lee2, Takashi Sagawa2, Yoshio Masuda3, Susumu Yoshikawa2, Shizuo Fujita1 |
| ’ |
12 |
Titanium oxide nanotube films formed by anodization in an ammonium fluoride solution |
RIEC, Tohoku Univ.1@Ryota Kojima1, Rahman Mohammad Maksudur1, Mehdi El Fassy Fihry1, Yasuo Kimura1, Michio Niwano1 |
| ’ |
13 |
Effect of CF4 Plasma Treatment on Improvement of Dye Sensitized Solar Cell |
Graduate School, KIT1, KIT2@Kitamura Miho1, Kasamatsu Toshimichi2, Tokunaga Yoshiaki1C2, Aizawa Koji1C2 |
| ’ |
14 |
Solution Processable Bulk Heterojunction Organic Thin-Film Solar Cells Based on Phthalocyanine Derivative |
Osaka Univ.1, AIST2@Tetsuro Hori1, Yasuo Miyake1,2, Naoyuki Yamasaki1, Hiroyuki Yoshida1, Akihiko Fujii1, Yo Shimizu2, Masanori Ozaki1 |
| ’ |
15 |
Enhanced Thermal Stability of pin Heterojunction Organic Photovoltaics Using New Fullerene Derivatives |
The Univ. of Tokyo1, MCRS2, JST-ERATO3@Hideyuki Tanaka1,3, Iwao Soga2,3, Yutaka Matsuo1,3, Yoshiharu Sato2,3, Eiichi Nakamura1,3 |
|
16 |
Morphology Control of Crystalline Donor Layer in Solution Processed Multi-layered Organic Photovoltaic Devices |
JST-ERATO1, The Univ. of Tokyo2, MCRC3@Iwao Soga1,3, Hideyuki Tanaka1,2, Yutaka Matsuo1,2, Yoshiharu Sato1,3, Eiichi Nakamura1,2 |
| 12.3 Electro-Functional Materials and Devices |
| Sept. 16 9:00`17:00 |
| 16a-R - 1`11 |
|
1 |
Solvent Vapor Treatment of Codeposited Films of Tetraphenylporphyrin and C60 |
IMS1@iPjKai Iketaki1, Toshihiko Kaji1, Masahiro Hiramoto1 |
|
2 |
Doping Effect for Organic Semiconductor Films Measured by Kelvin Vibrating Capacitor Method |
IMS1, CREST/JST2@Masayuki Kubo1,2, Toshihiko Kaji1,2, Kai Iketaki1,2, Masahiro Hiramoto1,2 |
|
3 |
Correlation between physical parameters in the carrier mobility formulas for organic materials II |
Wakayama Univ.1@iM2jAkira Tanimoto1, Yuui Sakata1, Takuya Fujii1, Hirotugu Kida1 |
|
4 |
Preparation and evaluation of carrier mobilities of heterocyclic compounds |
Saga University, Faculty of Science and Engineering, Department of Chemistry and Applied Chemistry1@Masanao Era1, Mitsuharu Noto1, Tetsuro Fujiie1 |
|
5 |
Observation of Carrier Injection Property for Organic Electronic Devices
by Displacement Current Measurement with Ionic Liquid as an Insulator |
AIS, Chiba Univ.1, CFS, Chiba Univ.2@Taiki Yamada1, Yutaka Noguchi1,2, Hisao Ishii1,2 |
| |
|
Break 10:15`10:30 |
|
| ’ |
6 |
High Carrie Mobility in 1,4,8,11,15,18,22,25-Octahexylphthalocyanine |
AIST1, Osaka Univ.2@Yasuo Miyake1,2, Tetsuro Hori2, Naoyuki Yamasaki2, Hiroyuki Yoshida2, Akihiko Fujii2, Masanori Ozaki2, Yo Shimizu2 |
| ’ |
7 |
Effect of molecular dipole on charge carrier transport properties in Liquid crystals |
Tokyo Institute of Technology1, JST-CREST2@iM2jKoichi Kawahara1, Akira Ohno1,2, Hiroaki Iino1,2, Jun-ichi Hanna1,2 |
| ’ |
8 |
Observation of exciton-diffusion and charge-dissociation processes@in molecular-compound-semiconductor crystals
|
PRI-AIST1, U. Tokyo2@Jun'ya Tsutsumi1, Toshikazu Yamada1, Hiroyuki Matsui1,2, Simon Haas1, Tatsuo Hasegawa1 |
| ’ |
9 |
Study for DNAFET with Si gate |
University of Hyogo1, Hiroshima Univ.2@Shogo Takagi1, Naoto Matsuo1, Kazushige Yamana1, Akira Heya1, Tadao Takada1, Kenji Sakamoto2, Shin Yokoyama2 |
| ’ |
10 |
Electric property of ferroelectric-gate field effect transistor using organic ferroelectric |
Kobe Univ.1, Toyo Univ.2@Yosuke Sakaki1, Toshihiro Ishida1, Yasuko Koshiba1, Masahiro Misaki1, Satoshi Horie1, Kenji Ishida1, Yasukiyo Ueda1, Yasuo Wada2, Ken Tsutsui2 |
| ’ |
11 |
Fabrication and evaluation of flexible transparent pyroelectric device |
Kobe Univ.1, DAIKIN Industries,Ltd.2@Togo Koda1, Tetuhiro Kodani2, Meiten Koh2, Takashi Kanemura2, yasuko Koshiba1, Satoshi Horie1, Masahiro Misaki1, Kenji Ishida1, Yasukiyo Ueda1 |
| |
|
Lunch 12:00`13:00 |
|
| 16p-R - 1`15 |
|
1 |
Theoretical study on exciton dissociations at donor-acceptor polymer heterojunctions |
Tohoku university1@Hiroyuki Tamura1 |
|
2 |
Study of a pn homojunction diode based on zinc phthalocyanine |
Waseda Univ.1@Hiroaki Yoshii1, Yukio Furukawa1 |
|
3 |
Highly Efficiency Ultrafast Photoelectric Conversion in Organic Multilayer Photocells |
Dept.of Chem & RCMS, Nagoya Univ.1, Dept. Appl. Phys., Nagoya Univ.2@Yukiko Noda1, Laigui Hu1, Kunio Awaga1, Hiroshi Ito2 |
|
4 |
Photocurrent and internal electric field of IZO/Pentacene/C60/metal double-layer device |
Tokyo.Tech.1@Tatsunori Shino1, Dai Taguchi1, Hideki Kohn1, Takaaki Manaka1, Mitsumasa Iwamoto1 |
|
5 |
Molecular aggregate of PCBM thin film prepared with added PCBM chloroform fluid of ethanol
|
Aichi Inst. of Tech.1@Daichi YamanakaP, Teruyoshi Mizutani1, Kenzou Kojima1, Shizuyasu Ochiai1 |
|
6 |
Conductivity enhancement of PEDOT:PSS films by adding surfactants |
Nagoya Inst. of Tech.1@Daiki Ito1, Naoki Kishi1, Shinya Kato1, Yasuhiko Hayashi1, Tetsuo Soga1, Takashi Jimbo1 |
|
7 |
Wavelength Dependence of Transient Absorption Characteristics for Silole-Fluorene Mixed Film |
Saitama Univ.1, AIST2@Takeshi Fukuda1, Ryohei Kobayashi1, Sho Kimura1, Zentaro Honda1, Norihiko Kamata1, Keita Mori1, Yuu Suzuki1, Ken Hatano1, Akihiro Furube2 |
| |
|
Break 14:45`15:00 |
|
|
8 |
Preparation of VDF/TrFE/CTFE Terpolymer Thin Films for Application to Infrared Sensor |
TRI of Osaka Pref.1@Shuichi Murakami, Kazuo Satoh, Mayumi Uno, Yoshiaki Sakurai |
|
9 |
Development of a home-use early abnormality alarm system by
biomimetic odor sensor using beta-carotene
|
Tokyo Univ. Tech.1@Siko Mitachi1, Kazuya Shiraishi1 |
|
10 |
Investigation of organic thermovoltaic devices by utilizing a layered structure of pentacene and fullerene thin films |
Kyusu University1, Center for Future Chemistry2, Bio Electromechanical Autonomous Nano Systems Project3, Center for Organic Photonics and Electronics Research4@Mao Sumino1,2,3,4, Kentaro Harada1,2,3,4, Chihaya Adachi1,2,3,4 |
|
11 |
Development of Molecular Motion Switching Single-Molecule Devices |
ISIR Osaka Univ.1, JST-PRESTO2@Masateru Taniguchi1,2, Makusu Tsutsui1, Tomoji Kawai1 |
|
12 |
Interface Engineering at Ferromagnetic Metal and Organic Materials in Spin-valve Devices |
°-Osaka Univ.1@Yosuke Takeda1, Hirokazu Tada1 |
|
13 |
Organic Magnetoresistance based onto Exciplex Formation |
OPERA, Kyushu Univ.1@Kenichi Goushi1, Chihaya Adachi1 |
|
14 |
Photoelectron spectroscopy and displacement current measurement studies on metal-on-AIDCN interfaces as a model of organic non-volatile memory devices
|
CFS, Chiba Univ.1, NTHU2, NSRRC3, AIS, Chiba Univ.4@Yasuo Nakayama1, Yen-Hao Huang2, Ching-Hsuan Wei3, Shin-ichi Machida4, Tun-Wen Pi3, S.-J. Tang2, Yutaka Noguchi1,4, Hisao Ishii1,4 |
|
15 |
Device integration of Organic Electrical Bistable device using Hyper-Branched Polymer / Gold nanoparticles composite |
IMCE, Kyushu Univ.1, Nissan Chemical Ind. Ltd.2@Hisashi hbghj`v`1, Kei YASUI2, Masaaki OZAWA2, Keisuke ODOI2, Katsuhiko FUJITA1 |
| 12.4 Opto-Functional Materials and Devices |
| Sept. 14 10:00`12:00 |
| 14a-ZF - 1`8 |
|
1 |
Holographic polymer-dispersed liquid crystal capable of high refractive index modulation (M#>3) and low light scattering |
Dentsu univ.1@Ryuichiro Ohira1, Yasuo Tomita1 |
|
2 |
Study of polarization relaxation of electro-optic chromophores with thermally stimulated current measurements
|
Dept.of Phys.Elec.,Tokyo Tech1, NICT2@Shigeo Uehara1,2, toshiki Yamada1,2, Akira Otomo1,2, Dai Taguchi1, Takaaki Manaka1, Mitsumasa Iwamoto1 |
|
3 |
Photorefractive Polymeric Materials |
Kyoto Institute of Technology1@Asato Nonomura1, Wataru Sakai1, Naoto Tsutsumi1 |
|
4 |
Interferometric determination of wavelength dispersion of’Τ(1) and Τ(2) in poled polymers |
RIKEN1, Utsunomiya Univ.2@iPCjTakashi Fujihara1, Takafumi Sassa1, Jun-ichi Mamiya1, Tsuyoshi Muto1, Shinsuke Umegaki2 |
|
5 |
Simultaneous Determination of Optical Anisotropies for linear and 2nd order nonlinear Susceptibilities from Efficient EO Polymer Thin Films |
RIKEN1@Takafumi Sassa1 |
| ’ |
6 |
Kerr effect in PDA Nanocrystals Probed at Surface Plasmon Resonance Condition |
Tokyo inst.1, Saitama Inst.2@iM1CjOki Kuraishi1, Daisuke Tanaka1, Masayuki Shimojo2, Kotaro Kajikawa1 |
| ’ |
7 |
The Control of J-Aggregate States of Pseudo-Isocyanine by Using DNA Polymer |
CIST1@iM2jSho Kato, Yutaka Kawabe |
|
8 |
Highly efficient energy transfer in cyanine-dye thin films |
Kobe Univ.1@Ryoji Fujii1, Osamu Kojima1, Takashi Kita1 |
| 12.4 Opto-Functional Materials and Devices |
| Sept. 15 10:00`12:45 |
| 15a-ZF - 1`10 |
|
1 |
Organic Laser Device |
kyoto Inst.1, kyoto Inst.2, kyoto Inst.3@iM2jTaiki Hinode1, Wataru Sakai1, Naoto Tsutsumi1 |
|
2 |
One-Dimensional Alignment Thin Films of Thiophene/Phenylene Co-Oligomer |
Kyoto Inst. of Tech.1, NTT PH Labs.2@Takeshi Yamao1, Hirohisa Kanbara2, Nobutatsu Koshobu2, Junya Kobayashi2, Shu Hotta1 |
|
3 |
Amplified Emission by Stimulated Resonant Raman Scattering from Single-crystal of Thiophene/phenylene Co-oligomers |
NAIST1, Kyoto Inst. Tech2@Yusuke Marutani1, Atsushi Ishizumi1, Hisao Yanagi1, shu Hotta2 |
|
4 |
1.3 Κm laser emission from IR dye-doped fluorinated-polyimide waveguides (II) |
Kyoto Inst Tech1, NAIST2@takashi Morishita1, Kenichi Yamashita1, Kunishige Oe1, Hisao Yanagi2 |
|
5 |
Surface-Emitting Laser of Dye-Doped Polymer Thin Films with 2D-DFB Resonator |
NAIST1, Kyoto Inst. Tech.2@Tomoya Nakayama1, Atsushi Ishizumi1, Satoshi Tomita1, Hisao Yanagi1, Kenichi Yamashita2, Kunishige Oe2 |
| |
|
Break 11:15`11:30 |
|
|
6 |
Lasing threshold characteristics of plastic waveguide laser with a cavity of high reflectivity mirror under optically waveguide pumping |
Kyoto Inst.Tech1@Shuhei Sugimoto1, Masahiro Itou1, Kenichi Yamashita1, Kunishige Oe1 |
| ’ |
7 |
Emission Control of CdSe Nanoparticle by Polymer Nano-Assembled Structure Fabricated on Grating Substrate |
IMRAM, Tohoku Univ.1, AIST2, RIES, Hokkaido Univ.3@Shimpei Morita1, Masaya Mitsuishi1, Tokuji Miyashita1, Keiko Tawa2, Junji Nishii3 |
|
8 |
Optical responses of a tetracene microcavity fabricated by spin-coating processes |
Department of Physics, Ehime University1, Department of Chemistry, Ehime University2@iM2jNahito Miki1, Hisao Kondo1, Tatsuya Aotake2, Shuhei Katsuta2, Hiroko Yamada2 |
|
9 |
ADE-FDTD Simulation as a Tool for the Development of Low Threshold Cholesteric Liquid Crystal Laser
|
Mie Univ.1, Mie CUTE2@Tatsunosuke Matsui1,2, Masahiro Kitaguchi1 |
|
10 |
Ultra-High Refractive Index Organic-Inorganic Nano-Hybrid Composite Fabrication |
Tohoku Univ.1@Bin Cai1, Okihiro Sugihara1, Hendry I. Elim1, Toshikuni Kaino1, Adschiri Takafumi1 |
| 12.5 Liquid Crystal |
| Sept. 15 9:00`12:00 |
| 15a-M - 1`11 |
|
1 |
Experiment on a field-induced isotropic-nematic critical point |
Tottori University.1, TEDREC2, Sony Mobile Display Corp.3@Masahiro Kosuge1,3, Shohei Naemura2, Norio Koma3, Tadashi Tsuyuki3, Kaoru Fujimura1 |
| ’ |
2 |
Defect-free in-plane helix alignment in n-type cholesteric liquid crystals |
Osaka Univ.1@Yo Inoue1, Hiroyuki Yoshida1, Akihiko Fujii1, Masanori Ozaki1 |
|
3 |
Liquid crystal alignment on perfluoropolymer films exposed to linearly polarized ultraviolet light |
Osaka Sangyo Univ.1@Kiyoaki Usami1 |
|
4 |
Fabrication of Low-voltage-driving Liquid Crystal Lens Using Transparent Ceramic Substrate
|
Akita R&D Center1, Murata Manufacturing Co2@Mao Ye1, Bin Wang1, Yuji Kintaka2, Nobuhiko Tanaka2, Susumu Sato1 |
|
5 |
Liquid Crystal Optical Bistability Device Based on MIM Surface Plasmons |
Tokyo Inst. Technology1@Tien Tain Phan1, Kenta Oishi1, Kotaro Kajikawa1 |
| |
|
Break 10:15`10:30 |
|
| ’ |
6 |
Simultaneous Determination of Elastic Constants and Anchoring Energy of Homogeneous and Homeotropic Nematic Liquid Crystal Cells |
Osaka Prefecture University1, The Reserch Inst. for Molecular Electronic Devices2, Merck Ltd.3, Merck KGaA4@Keita Iwaya1, Hiroyoshi Naito1, 2, Hideo Ichinose3, Klasen-memmer Melanie4, Kazuaki Tarumi4 |
|
7 |
Characterization of vertical alignment films by X-ray reflectivity |
JASRI1, Nissan Chemical Industries Ltd.2@Ichiro Hirosawa1, Tomoyuki Koganezawa1, Hidenori Ishii2 |
|
8 |
Creation Annihilation of Macroscopic Order in a Nematic Liquid Crystal |
Osaka Sangyo Univ.1, Southampton Univ.2, Max Planck institute3@Akihiko Sugimura1, Geoffrey Luckhurst2, Yoshiaki Tanaka1, Bakir Timimi2, Herbert Zimmermann3 |
|
9 |
Investigation of molecular alignment in liquid crystalline phthalocyanine derivatives |
Osaka Univ.1, AIST2@Hiroyuki Yoshida1, Yasuo Miyake1,2, Naoyuki Yamasaki1, Tetsuro Hori1, Akihiko Fujii1, Yo Shimizu2, Masanori Ozaki1 |
|
10 |
Alignment Control of Luminescent Molecule by Nanoimprint Film |
Tokyo Univ. of Agri. & Tech.1, Kyushu Univ.2, The Univ. of Tokyo.3@Takaaki Shintani1, Takeshi Shimomura1, Takuma Yasuda2, Takashi Kato3 |
|
11 |
Charge Carrier Mobility of Tri-substituted Alkoxytruxene Derivatives |
AIST1, Shichuan Normal Univ.2, Osaka Univ.3@Hirosato Monobe1, Chao Chen2, Ke-Qing Zhao2, Ping Hu2, Yasuo Miyake1,3, Akihiko Fujii3, Masanori Ozaki3, Yo Shimizu1 |
| 12.6 Polymer and Soft-materials |
| Sept. 15 14:00`18:45 |
| 15p-ZF - 1`18 |
|
1 |
Charge Dynamics in Organic Semiconductors by Time-Resolved Studies |
Osaka Univ.1, JST-PRESTO2@Akinori Saeki1,2, Shu Seki1,2 |
|
2 |
A novel design of nanofibrous gel actuator by electrospinning |
Waseda Univ.1, AIST2@iM1jgiroki Nakagawa1, Yuusuke Hara2, Shingo Maeda1, Shuuji Hashimoto1 |
|
3 |
Training and Learning Effects in Artificial Muscles based on Conducting Polymers |
Kyushu Inst. Tech.1@Keiichi Kaneto1, Kazuo Tominaga1 |
| ’ |
4 |
Design of Self motion of polymer gel actuator |
Waseda Univ.1, AIST2@Shingo Maeda1, Yusuke Hara2, Shuji Hashimoto1 |
|
5 |
Microwave absorbing material prepared with lacquer and epoxy resin as a binder. |
Meiji Univ.1@Toraki Iwamaru1, Hirosi Katumata1, Shin-ichiro Uekusa1, Hiroki Ooyagi1, Takahisa Ishimura1, Tetsuo Miyakoshi1 |
|
6 |
Optical Characteristics of P3HT/PCDTBT Thin Film
and Observation of the Surface Morphology |
Aichi Inst. of Tech1@Kenta Sakai1, Teruyoshi Mizutani1, Kenzo Kojima1, Shizuyasu Ochiai1 |
|
7 |
Absorbance and Morphology of the Organic Thin Film Prepared by Different PCDTBT/PC60BM Weight Ratio |
Aichi Inst. of Tech1@iM1jMasaki Uchiyama1, Teruyoshi Mizutani1, Kenzo Kojima1, Shizuyasu Ochiai1 |
|
8 |
Scaling behavior in electrophoretic current of conjugated polymer |
Univ. of Hyogo1@Kazuya Tada1, Mitsuyoshi Onoda1 |
|
9 |
Growth Pattern and Reaction Mechanism by Electrochemical Polymerization |
Univ. of Hyogo1@Mitsuyoshi Onoda1, Masayuki Okada1, Kazuya Tada1 |
| |
|
Break 16:15`16:30 |
|
| ’ |
10 |
Direct observation of phase transition from ΐ-phase to Ώ-phase PFO by 2D-GIXD |
Kobe Univ.1, JASRI2@Takuji Kawamura1, Masahiro Misaki1, Yasuko Koshiba1, Satoshi Horie1, Kenji Kinashi1, Kenji Ishida1, Yasukiyo Ueda1, Tomoyuki Koganezasa2, Ichiro Hirosawa2 |
| ’ |
11 |
Mechanism of Positive Temperature Coefficient (PTC) Effect of Resistivity in Poly(vinylidene fluoride) / Ni Composites
|
Kanazawa Inst. Technol.1, JASRI2, Tokyo Inst. Technol.3@Akihiko Kono1, Hideo Horibe1, Hiroyasu Masunaga2, Toshiaki Ougizawa3 |
|
12 |
Effect of Dopant Species of Electromotive Force Generated from Conducting Polymer Film |
kyukoudai Inst.1@Daisuke Iwahashi1, Masaki Fuchiwaki1, Kazuhiro Tanaka1 |
|
13 |
Conducting property of conducting polymer nanofiber with controlled branched structure
|
Tokyo Univ. of Agri. and Tech.1@Yuki Seki1, Takeshi Shimomura1 |
|
14 |
UV-ozone irradiation effects on electrical property of PEDOT:PSS film |
NIMS1, Kyusyu univ.2@Takahiro Nagata1, Seungjun Oh1,2, Yutaka Wakayama1,2, Toyohiro Chikyow1 |
|
15 |
Ion Conducting behavior of Slide-Ring Gels Swollen with Ionic Liquids |
Tokyo Univ. of Agri & Tech1, The Univ. of Tokyo2@Takao Moriyasu1, Takeshi Shimomura1, Kohzo Ito2 |
|
16 |
Competition between Phase Separation and Crystallization in Protein Solutions II |
Grad. Sch. of Sci., Japan Women's Univ.1, Inst. Ind. Sci., Univ. of Tokyo2@Naeko Niikura1, Masae Takahashi1, Reiko Nishida1, Hajime Tanaka2 |
|
17 |
Phase separation dynamics of deformed multicomponent vesicles induced by external stimulus |
Tokyo Univ. of Agri. & Tech.1@Chiho Watanabe1, Soichiro Sugihara1, Takeshi Shimomura1 |
|
18 |
Nano-Friction on a Sodium Polystyrene Sulfonate Brush in Water |
Fac. Eng., Tokyo City Univ.1, Fac. Eng., Grad. Sch., Tokyo City Univ.2@Takuya Fujima1, Fumihiro Kino2, Eitaro Futakuchi1, Ken-ichi Takagi1 |
| 12.7 Biological, Medical Engineering and Biochips |
| Sept. 15 |
| 15a-ZW - 1`29 |
| |
Short Presentation (5 min.) 9:00`11:50
15a-ZW - 1`29@Poster Session 13:00`15:00 |
|
1 |
Development and Prospects of Micro Brain Interface Device for In Vivo Analysis of Neural Cells in Mouse Brain |
School of Eng. Univ. Tokyo1, JSPS Research Fellow2, School of Med. Univ. Tokyo3, CNBI Univ. Tokyo4@Hiroaki Takehara1,2, Akira Nagaoka2,3, Jun Noguchi3,4, Takanori Akagi1,4, Haruo Kasai3,4, Takanori Ichiki1,4 |
|
2 |
Optimization of the micro-gap-chip for concentration of nucleated red blood cell |
JAIST1, Kanazawa Med. Univ. FDD-MB study group2, Osaka Univ.3@Takeshi Kumo1, Yuichi Tomizawa1, Mikiko Kita2, Haruo Takabayashi2, Eichi Tamiya3, Yuzuru Takamura1 |
|
3 |
Flow control of cells by dielectrophoretic force using planar micro quadrupole |
Nanosystem RI, AIST1, Kagoshima Natl. Col. Tech.2@Takahito Inoue1, Masanori Nishi1, Hironori Yamazoe1, Ayako Oyane1, Toshimasa Uemura1, Takao Suda2 |
|
4 |
Improvement of dielectrophoretic cell operation by the addition of the isolated electrode |
Kagoshima Natl. Col. Tech.1, Nanosystem RI, AIST2@Takao Suda1, Ayuka Iwamoto1, Yuta Ideguchi1, Takahito Inoue2 |
|
5 |
Feasibility study on a micromixer |
Osaka Inst.1@Takeshi Hashimoto1, Hiroshi Tsutsui1 |
|
6 |
The Study of The Laminar Flow in The Microchanneli2nd Reportj |
Toyo Univ.1@Kiyohiko Suzuki1, Takashi Uchida1, Yoshikazu Yoshida1 |
|
7 |
Micro - fluidic device with polymide - resin micro - needle |
Toyo Univ.1@iM1jYuki Matsumoto1, Takashi Uchida1, Yoshikazu Yoshida1 |
|
8 |
All-resin micro fluidic plates made of cyclo-olefin polymer sealed by the photo-activation bonding process |
Kyoto Univ.1, Alps Electric2@iPCjYoung-jong Kim1, Hiroyuki Sugimura1, Kuniaki Murase1, Yoshinao Taniguchi2, Yoshihiro Taguchi2 |
|
9 |
Evaluation of flow rate for capillary-driven chip by using SPR sensor |
NTT MI Labs.1@Toru Miura1, Tsutomu Horiuchi1, Jun-ichi Takahashi1, Michiko Seyama1, Yuzuru Iwasaki1, Emi Tamechika1 |
|
10 |
Development of Liquid Electrode Plasma Chip Integrated with Solid Phase Extraction |
JAIST1, MicroEmission Ltd.2@Norimasa Kumagai1, Atsushi Kitano1, Keiko Nakayama2, Tamotsu Yamamoto2, Yuzuru Takamura1 |
|
11 |
Development of high-frequency wireless-electrodeless quartz crystal microbalance biosensor with a bare quartz resonator embedded in a silicon microchannel |
Graduate School of Engineering Science, Osaka University1, PRESTO, JST2@Fumihito Kato1, Shintaro Nishikawa1, Taiji Yanagida1, Hirotsugu Ogi1,2, Masahiko Hirao1 |
|
12 |
Detection of Lactose using Multi Nano-bio Reactor |
KITC1, Keio Univ.2@Takeshi Ito1, Satoru Kaneko1, Yasuo Hirabayashi1, Masayuki Kunimatsu1, Koji Suzuki2 |
|
13 |
Development of immuno-sensing chip using GLEIA method |
JAIST1, Osaka Univ.2@Yoshitaka Genko1, Suguru Shiohara1, Miyuki Chikae1, eiichi Tamiya2, Yuzuru Takamura1 |
| |
|
Break 10:15`10:30 |
|
|
14 |
Fabrication of microreactor array chip for high throughput quantitative bioanalysis |
Univ of Tokyo Graduate School of Engineering1, JST-CREST2@Takahiro Fujita1, Manish Biyani1,2, Takanori Akagi1,2, Takanori Ichiki1,2 |
| £ |
15 |
Microfluidic chip for Screening Organophospahte Pesticides based on Acetylcholinesterase Inhibition |
JAIST1, Osaka Univ.2, Okayama Univ. Sci.3@Trung Nguyen Ba1, Masato Saito2, Naoki Nagatani3, Eiichi Tamiya2, Yuzuru Takamura1 |
| ’ |
16 |
Application of SPR imaging system for clinical diagnosis of type I allergy |
Hiroshima Univ.1@Yuhki Yanase1, Kaori Ishii1, Michihiro Hide1 |
|
17 |
Microdevices for in situ sensing of oxygen metabolism of cultivated cells |
School of Eng.Univ.Tokyo1, JSPS Research Fellow2, CNBI Univ.Tokyo3@Mari Kojima1, Hiroaki Takehara1,2, Takanori Akagi1,3, Takanori Ichiki1,3 |
|
18 |
Biosensor based on Photonic Crystal Nanolaser with Nano-Slot Structure |
Yokohama Nat'l Univ.1, JST-CREST2, Tokyo Tech3, Hokkaido Univ.4@iDjShota Kita1,2, Shota Otsuka1, Shoji Hachuda1,2, Tatsuro Endo3, Yoshiaki Nishijima4, Hiroaki Misawa4, Toshihiko Baba1,2 |
|
19 |
Increased cell mapping using photonic crystal nanolaser array |
Yokohama Natfl Univ.1@Hiroshi Abe1, Michimasa Narimatsu1, Shota Kita1, Asahi Tomitaka1, Yasushi Takemura1, Toshihiko Baba1 |
|
20 |
Extraction and measurement of exosomes shed from HL60 cells |
Univ. of Tokyo, Sch. of Eng.1@iM1jMio Sasaki1, Takanori Akagi1, Takanori Ichiki1 |
|
21 |
Evaluation of physical properties of liposomes using microchips |
Univ. of Tokyo1@Kei Kato1, Masaru Koido1, Takanori Akagi1, Takanori Ichiki1 |
|
22 |
Cultivation of primary culture cells and gene transfer of ChR2 in the incubation type planar patch clamp device |
SOKENDAI1, IMS2, TOHOKU UNIV3@Hidetaka Uno1, Toru Ishizuka3, Hiromu Yawo3, Tsuneo Urisu1,2 |
|
23 |
Development of plastic substrates for the multichannel incubation type planer patch clamp biosensor
|
IMS1, RIKEN2, AIST3@Noriko Takada1, Masaki Aoyama1, Mitsukazu Suzui1, Yosuke Hachisu2, Hitoshi Ohmori2, Harutaka Mekaru3, Satoru Nakao1, Tsuneo Urisu1 |
| £ |
24 |
Microfluidic printing of extra cellular matrix for multichannel incubation type planer patch clamp biosensor |
IMS1@Zhi-Hong Wang1, Noriko Takada1, Takayuki Yano1, Mitsukazu Suzui1, Hidetaka UnoP, Tsuneo Urisu1 |
|
25 |
Control of the neuronal network formation for the in vitro analysis of the signaling mechanism |
SOKENDAI1, JSPS2, NIPS3, IMS4@Kuniyo Fujiwara1,2, Yugo Fukazawa3, Tsuneo Urisu4 |
|
26 |
All wet process for fabricating cell adhesion area and arrangement of different kinds of cells using femtosecond laser. Part 2. |
Grad. Sch. Mat. Sci., NAIST1, NCTU in Taiwan2, Tohoku Fukushi Univ.3@iM2jAi Matsui1, Yasuyo Maezawa1, Mie Matsubara1, Yoichiroh Hosokawa1, Kazunori Okano1,3, Hiroshi Masuhara1,2 |
|
27 |
Patterning primary neurons on organosilane self-assembled monolayer templates |
Tokyo Univ. Agricul. & Technol.1, Nanotechnology Research Center, Waseda Univ.2, Waseda Univ.3@iPjHideaki Yamamoto1,2, Takashi Tanii2,3, Shun Nakamura1 |
| £ |
28 |
INVESTIGATION OF THE COATING MATERIAL TO SUPPRESS NON-SPECIFIC BIDING OF PROTEIN ON SWCNT |
JAIST1, Osaka@Univ.2@Viet Nguyen1, Miyuki Chikae1, Kenzo Maehashi2, Kazuhiko Matsumoto2, Yuzuru Takamura1 |
|
29 |
Theoretical analysis of photothermal effect in gold nanoparticles for medical application |
N2RC in Osaka Pref.Univ1, Grad. Sch. Eng.2@in Osaka Pref. Univ2, PRESTO-JST3@Yasutaka Watanabe1,2, Hironori Hattori1,2, Chie Kojima1, Takuya Iida1,3 |
| 12.7 Biological, Medical Engineering and Biochips |
| Sept. 16 |
| 16a-ZW - 1`29 |
| |
Short Presentation (5 min.) 9:00`11:40
16a-ZW - 1`29@Poster Session 13:00`15:00 |
|
1 |
High sensitivity detection of DNA linked gold nanoparticle dimer by scattering polarization measurement |
Keio Univ.1@Akihiro Yamaoka1, AL-Qadi Bassam1, Jun Itou1, Jun Kobayashi1, Toshiharu Saiki1 |
|
2 |
Time and frequency response characteristics of a bacteriorhodopsin photosensor |
NICT1, NHK STRL2, Univ. of Electro-Comm.3@Katsuyuki Kasai1, Yoshihiro Haruyama1, Hiroshi Kikuchi2, Toshifumi Terui1, Yoshiko Okada-Shudo3, Akira Otomo1 |
|
3 |
Si-Slot Ring Biosensor |
Hiroshima University1, Hiroshima University2, Hiroshima University3, Hiroshima University4, Hiroshima University5, Hiroshima University6, Hiroshima University7, Hiroshima University8@Anna Hirowatari1, Takeshi Ikeda1, Yuto Oonishi1, Yosuke Abe1, Masataka Fukuyama1, Akio Kuroda1, Shin Yokoyama1, Yoshiteru Amemiya1 |
| ’ |
4 |
Direct Immobilization of Functional Proteins on a Silicon Wafer Using the Silicon-Binding Protein gSi-Tagh: Integration of Semiconductor and Biotechnology |
Res. Inst. Nanodevice Bio Syst. (RNBS), Hiroshima Univ.1, Grad. Sch. Adv. Sci. Matter, Hiroshima Univ.2@Takeshi Ikeda1,2, Kei Motomura1,2, Yousuke Abe1, Yoshiteru Amemiya1, Masataka Fukuyama1, Shin Yokoyama1,2, Akio Kuroda1,2 |
|
5 |
Sensitivity improvement of Si ring resonator biosensor by specific adsorption |
Res.Inst.for Nanodevice and Bio Systems, Hiroshima Univ.1, Adsm,Hiroshima Univ.2@Yousuke Abe1, Takeshi Ikeda1,2, Yoshiteru Amemiya1, Akio Kuroda1,2, Shin Yokoyama1,2 |
| ’ |
6 |
Confocal Imaging using bow-tie antenna with high impedance surface |
Research Inst. for Nanodevice and Bio Systems, Hiroshima Univ.1@Shinichi Kubota1, Nobuo Sasaki1, Akihiro Toya1, Takahiro Kouzaki1, Maiko Hanada1, Takahiro Noguchi1, Takamaro Kikkawa1 |
|
7 |
High Sensitivity of Immunoassay System Using AC Magnetic Susceptibility |
Advanced Research Laboratory, Hitachi, Ltd.1, Central Research Laboratory, Hitachi, Ltd.2, Faculty of Engineering, Kyushu University3@Ryuzo Kawabata1, Takako Mizoguchi1, Akira Tsukamoto1, Tomoko Yoshimura2, Akihiko Kandori1, Keiji Enpuku3 |
|
8 |
Optimization of Immunoassay using AC Susceptibility Measurement of
Magnetic Markers and Mouse IgG
|
Advanced Research Lab. Hitachi, Ltd.1, Kyushu Univ.2@Takako Mizoguchi1, Ryuuzou Kawabata1, Akihiko Kandori1, Keiji Enpuku2 |
| ’ |
9 |
Ion Sensing based on graphene field-effect transistors |
ISIR, Osaka Univ.1@Yasuyuki Sofue1, Yasuhide Ohno1, Kenzo Maehashi1, Koichi Inoue1, Kazuhiko Matsumoto1 |
|
10 |
Biosensors based on aptamer-modified graphene field-effect transistors |
ISIR, Osaka Univ.1@Yasuhide Ohno1, Kenzo Maehashi1, Kazuhiko Matsumoto1 |
| ’ |
11 |
3D Simulation of DNA Angle Dependence of Flat Band Voltage Shift in Defection by Ion-sensitive FET |
Nagoya University1@Mami Iio1, Shigeyasu Uno1, Kazuo Nakazato1 |
| ’ |
12 |
Fabrication of Nano Ionchannel Device with control gates by silicon planar process |
Toyohashi Univ.of Tech.1, JST-CREST2@iM1jYoshihisa Uemura1, Kazuya Atsumi1, Toshiaki Hattori1,2, Kazuhiro Takahashi1,2, Masato Futagawa1,2, Makoto Ishida1,2, Kazuaki Sawada1,2 |
| ’ |
13 |
Analysis of Au membrane on Ion Image Sensor for Arrayed Protein Chip |
Toyohasi Univ. of Tech.1, JST-CREST2@Shoko Takenaga1,2, Koichi Okumura1, Makoto Ishida1,2, Kazuaki Sawada1,2 |
| ’ |
14 |
Characterization of ACh image sensor based on Poly-ion Complex Membrane |
Toyohashi Univ. of Tech.1, Univ. of Hyogo2@iM1jYui Tamai1, Syoko Takenaga1, Kouichi Okumura1, Fumio Mizutani2, Makoto Ishida1, Kazuaki Sawada1 |
| ’ |
15 |
Glucose-sensing using Integrated Electrochemical Sensor Chip |
Toyohashi Univ. of Tech.1, HIOKI E.E. Corp.2, Univ. of Hyogo3, JST-CREST4@Tomoyuki Yamazaki1,2, Takaaki Ikeda1, Fumio Mizutani3, Koichi Okumura1, Makoto Ishida1,4, Kazuaki Sawada1,4 |
| |
|
Break 10:15`10:30 |
|
|
16 |
CMOS ISFET Imaging Sensor Array with Catalytic Chemical Vapor Deposited Silicon Nitride and Its Application |
Nagoya Univ.1, J.A.I.S.T.2@Shota Sando1, Shigeyasu Uno1, Kazuo Nakazato1, Keisuke Ohdaira2, Hideki Matsumura2 |
| ’ |
17 |
High-speed chemical sensor using a light source array (2) |
Tohoku Univ.1, Tohoku Univ.2@Naoki Kosaka1, Ko-ichiro Miyamoto2, Torsten Wagner1, Tatsuo Yoshinobu1,2 |
|
18 |
Development of the stand-alone chemical imaging sensor system using a display panel |
Tohoku Univ.1, Tohoku Univ.2@Akira Matsuo1, Ko-ichiro Miyamoto1, Torsten Wagner2, Tatsuo Yoshinobu1,2 |
|
19 |
Fundamental study of label-free DNA sequencing based on semiconductor-based biosensing technique by use of DNA-modified magnetic micro beads |
School of Engineering, Univ. of Tokyo1, JST Sentan2@Yuuya Miyazawa1,2, Toshiya Sakata1,2 |
|
20 |
Development of novel monitoring method of metabolic activity of various cells |
Univ. of Tokyo1, JST CREST2@Haruyo Sugimoto1,2, Toshiya Sakata1,2 |
|
21 |
Development of nanobio contact device and design of cell membrane charge imaging method |
Univ. of Tokyo1@Yuki Maekawa1, Toshiya Sakata1 |
|
22 |
Study on quantitative analysis method of mouse embryo activity using semiconductor-based biosensing techinique |
Univ. of Tokyo1, JST CREST2, Inui MC3@Toshiya Sakata1,2, Jinji Mizuno3, Haruyo Sugimoto1,2, Sayaka Kita1, Kaori Noguchi3, Eiko Kikuchi3, Hiroaki Inui3 |
|
23 |
Retinal stimulator with penetration electrode structure and hybrid resin |
NAIST1, Nagoya Univ.2@iM2jAyumu Murakami1, Yuki Sagawa1, Shingo Tomimatsu1, Toshihiko Noda1, Kiyotaka Sasagawa1, Takashi Tokuda1, Ill Yong Kim2, Chikara Ohtsuki2, Jun Ohta1 |
| ’ |
24 |
Development of Si Neural Probe with Optical Waveguide for Accurate Optical Stimulation of Neuron |
Dept. of Biomedical Engineering, Tohoku Univ.1, Dept. of Biology and Neuroscience, Tohoku Univ.2, New Industry Creation Hatchery Center, Tohoku Univ.3, Dept. of Physiology, School of Medicine, Tohoku Univ.4@Risato Kobayashi1, Sanghoon Lee1, Souichirou Kanno1, Seiichirou Sakai2, Kangwook Lee3, Takafumi Fukushima3, Toru Ishizuka2, Hajime Mushiake4, Hiromu Yawo2, Mitsumasa Koyanagi3, Tetsu Tanaka1 |
| ’ |
25 |
Microelectrode Array Design for Simultaneous Multipoint Amperometric Detection |
Nagoya Univ.1@Junichi Hasegawa1, Shigeyasu Uno1, Kazuo Nakazato1 |
| ’ |
26 |
Potentiometric imaging of visual cortex using biomedical photonic LSI |
¨Ώ1, oCI2, CREST3@iPjTakuma Kobayashi1,3, Ayato Tagawa1, Yosmongkol Sawadsaringkarn1, Toshihiko Noda1,3, Kiyotaka Sasagawa1,3, Takashi Tokuda1,3, Yumiko Hatanaka2,3, Hideki Tamura2,3, Yasuyuki Ishikawa2,3, Sadao Shiosaka2,3, Jun Ohta1,3 |
|
27 |
Study on spatial resolution improvement of in-vivo fluorescent image sensor by using a metallic nano-slit array
|
NAIST1, JST-CREST2@Kiyotaka Sasagawa1,2, Toshihiko Noda1,2, Takashi Tokuda1,2, Jun Ohta1,2 |
|
28 |
Development of a polarization-analyzing CMOS image sensor for real time chiral analysis |
NAIST1, Miyazaki Univ2@Yuji Fujioka1, Toshihiko Noda1, Kiyotaka Sasagawa1, Takashi Tokuda1, Kimitada Terao1, Yasuhiro Nishiyama1, Ken Tsutsumi2, Kiyomi Kakiuchi1, Jun Ohta1 |
|
29 |
A 13.56MHz-RFID Biosensor Chip with On-chip Spiral Inductor |
Nagoya Univ.1@Boram Kim1, Shigeyasu Uno1, Kazuo Nakazato1 |
| 12.8 Organic EL |
| Sept. 16 9:00`17:00 |
| 16a-ZK - 1`11 |
| ’ |
1 |
Highly efficient blue phosphorescent OLED using bipolar host material |
Tokyo Univ. of Science1, Hodogaya Chemical Co., Ltd2, NHK Sci. & Tech. Res. Labs3@Hiromu Hanashima1, Shiro Irisa2, Norimasa Yokoyama2, Shizuo Tokito3, Hirohiko Fukagawa1,3 |
| ’ |
2 |
Anthracene derivatives as Host Materials for Blue fluorescence Organic Light-Emitting Devices |
Tokyo Univ.of Sci1, NHK Sci Tech Res Labs2@noriyuki ohbe1, shizuo tokito2, hirohiko hukagawa1,2 |
| ’ |
3 |
External quantum efficiency over 7% in a green fluorescent OLED |
Department of Organic Device Engineering, Yamagata University1@Go Nakata1, Yong-jin Pu1, Hisahiro Sasabe1, Ken-ichi Nakayama1, Junzi Kido1 |
|
4 |
Charge transport mechanism of organic liquid semiconductors |
CFC & Dep. Appl. Chem., Kyushu Univ.1, OPERA, Kyushu Univ.2@Korefumi Kubota1, Shuzo Hirata2, Kenichi Goushi2, Chihaya Adachi1,2 |
| ’ |
5 |
Improvement of Emitting Properties in Organic Light Emitting Diode Having Liquid Emitting Layer |
Center for Organic Photonics and Electronics Research (OPERA)1, Missan Chemical Industries, LTD2, Inst. of Systems, Information Technologies and Nanotechnologies (ISIT)3@Shuzo Hirata1, Korefumi Kubota1, Jung Heo Hyo1, Osamu Hirata1,2, Kenichi Goushi1, Yahiro Masayuki1,3, Adachi Chihaya1,3 |
| ’ |
6 |
Study on increase in driving voltage for organic light-emitting diodes |
Nagoya Univ.1@Masato Imanishi1, Takao Nishikawa1, Tatsuo Mori1 |
| |
|
Break 10:30`10:45 |
|
| ’ |
7 |
Analysis on trapped carriers in hole-transport materials 2-TNATA and DNTPD by field-induced ESR |
Fujifilm Co. Ltd.1@Takuro Sugiyama1, Takashi Komiyama1, Yoshiko Hara1, Koji Kawato1, Wataru Sotoyama1, Hiroaki Hyuga1 |
| ’ |
8 |
Analysis of carrier transients in double layer organic electroluminescence devices as a system of Maxwell-Wagner effect element by using electric-field-induced second-harmonic generation
|
Tokyo Tech1, Slovak Acad. Sciences2@Dai Taguchi1, Le Zhang1, Jun Li1, Martin Weis2, Takaaki Manaka1, Mitsumasa Iwamoto1 |
| ’ |
9 |
Study on Carrier Transfer in PDOF/Ca interface by using Multi-Scale Carrier Transfer Simulation |
Grad. School Eng., Tohoku Univ.1, NICHe, Tohoku Univ.2@Itaru Yamashita1, Hiroaki Onuma1, Ryo Nagumo2, Ryuji Miura1, Ai Suzuki2, Hideyuki Tsuboi1, Nozomu Hatakeyama1, Akira Endou1, Hiromitsu Takaba1, Momoji Kubo1, Akira Miyamoto1,2 |
| ’ |
10 |
Observation of Alq3 Organic EL with LiF:Al Alloy Cathode |
Osaka.Univ. Ctr.Adv.Sci.Innov.(CASI)1@Tomohumi Ikeda1, Hirotake Kajii1, Yutaka Ohmori1 |
|
11 |
Effects of Interlayer on Optical and Electrical Properties of Polyfluorene-based Organic Light-Emmiting Diodes and Transient Characteristics |
Osaka Univ, Ctr. Adv. Sci. Innov. (CASI)1@Toshinari Kojima1, Hirotake Kajii1, Yutaka Ohmori1 |
| |
|
Lunch 12:00`13:00 |
|
| 16p-ZK - 1`15 |
|
1 |
Polarized polymer-based light-emitting diodes fabricated by using very thin photo-aligned polyimide films: influence of highly oriented light-emitting layers on EL emission properties |
NIMS-ONC1@Kenji Sakamoto1, Kazushi Miki1 |
|
2 |
Molecular orientation characteristics caused by high-speed substrate transfer |
JAIST1@Toshinori Matsushima1, Hideyuki Murata1 |
|
3 |
Polarized electroluminescence by means of high-speed substrate transfer and homoepitaxial growth |
JAIST1@Toshinori Matsushima1, Hideyuki Murata1 |
|
4 |
Enhancement of hole injection due to control of molecular orientation |
JAIST1@Toshinori Matsushima1, Hideyuki Murata1 |
|
5 |
Small Energetic Disorder and Charge Transport in Organic Semiconductor with Orientational and Translational Orders of Molecules |
s Inst. of Tech.1, JST-CREST2@akira Ohno1,2, Jun-ichi Hanna1,2 |
|
6 |
Film thickness depend of Surface Plasmon loss in organic light emitting devices |
Kanazawa Institute of Technology1@Yuji Sawatari1, Seiya Sakurai1, Kouji Yasukawa1, Akiyoshi Mikami1 |
|
7 |
Enhanced Fluorescence by Surface Plasmon Coupling of Au Nanoparticles in an Organic Electroluminescence Diode |
Osaka Univ.1, JST/PRESTO2, SPring-8/RIKEN3@Aya Fujiki1, Takafumi Uemura1, Nobuyuki Zettsu1, Megumi Akai-Kasaya1, Akira Saito1,2,3, Yuji Kuwahara1,3 |
|
8 |
Color Control Spectra in Organic Light Emitting Diode
by Surface Plasmon Resonance Using Metal Nanoparticles |
Osaka Univ.1, RIKEN / SPring-82, JST PRESTO3@Takuya Tanaka1, Aya Fujiki1, Nobuyuki Zettsu1, Megumi Akai1, Akira Saito1,2,3, Yuji Kuwahara1,2 |
| |
|
Break 15:00`15:15 |
|
|
9 |
Control of Work Function of ITO Electrode by the Treatment of ITO Substrate |
s Polytechnic University1@Yoichi Hoshi, Noriyuki Uematsu, Yosuke Kusaki, q l, Takayuki Uchida |
|
10 |
Effect of metal oxide hole-injecting layer into organic light-emitting devices using gallium-doped zinc oxide anodes |
Toyota Centaral R&D Labs.1@Toshikazu Satoh1, Koji Noda1 |
|
11 |
Solution-processed rubrene-dope small molecular organic light emitting devices with a mixed single layer
|
Univ. Toyama1@iDCjZhaokui Wang1, Shigeki Naka1, Hiroyuki Okada1 |
|
12 |
Double-Faced Organic Light Emitting Device Using Laminate Method |
Toyama Univ.1@Takahiro Minami1, Ryuichi Satoh1, Hiroyuki Okada1, Sigeki Naka1 |
|
13 |
Assisted Bar-Coating Method for Solution-Processed Organic Light-Emitting Diodes |
Univ. of Toyama1@Tomohiro Koyama1, Shigeki Naka1, Hiroyuki Okada1 |
|
14 |
Characteristics of Laser-Writing Organic Light-Emitting Device by Electron Generation |
University of Toyama1@iM1jYuta Okawa1, Shigeki Naka1, Hiroyuki Okada1 |
|
15 |
Electro luminescent device employing electrodeposited porous crystalline ZnO |
Gifu Univ.1@Yasuaki Kimikado1, Keigo Ichinose1, Sergii Chertipalov1, Tsukasa Yoshida1 |
| 12.8 Organic EL |
| Sept. 17 9:00`15:00 |
| 17a-ZK - 1`11 |
|
1 |
Lasing characteristics of edge-emitting optically pumped organic semiconductor laser with DFB structure |
Keio Univ.1@Kenji Shirakawa1, masatoshi Tohma1, Yasuhiro Toriyama1, Shinichi Takahashi1 |
|
2 |
Optical-pumped edge emitting organic semi conductor laser with a mixed host structure |
Keio Univ1@Masatoshi Tohma1, Sou Fukui1, Yasuhiro Toriyama, Shinichi Takahashi1 |
|
3 |
Fabrication of Microdisk Lasers by using n-type Thiophene/Phenylene Co-oligomers AC5-CF3 and their Cavity Modes |
υZp1, G2, ¨3, H|4@Fumio Sasaki1, Masahiko Mori1, Satoshi Haraichi2, Yasuaki Masumoto3, Takeshi Yamao4, Shu Hotta4 |
|
4 |
Light-Emitting Transistors Comprising Multilayered Organic Crystals |
Kyoto Inst. of Tech.1@Takeshi Yamao1, Kentaro Kajiwara1, Kohei Terasaki1, Shu Hotta1 |
|
5 |
Passivation effect of Organic LED with Double-layered Inorganic /Diamond Like Carbon film |
University of Toyama1@Hirokazu Butou1, Hiroyuki Okada1, Shigeki Naka1 |
|
6 |
Low-Hydrogen-Content SiNx film prepared under Low-Temperature conditions by Surface-Wave-Plasma CVD |
Shimadzu Corp.1, Shimadzu Emit Co.,Ltd2@Satoko Ueno1, Mamoru Yomogida2, Masayasu Suzuki1, Yoshiyuki Konishi1, Shinichiro Ishida1, Kazufumi Azuma1 |
| |
|
Break 10:30`10:45 |
|
|
7 |
The influence of O* supply process which to the electric characteristics of TPD/Alq3 structural organic EL |
Tokyo Univ. of Agri.&Tech.1@Tasuku Maeda1, Takahiko Yuguchi1, Yoshitaka Iwazaki1, Tomo Ueno1 |
|
8 |
Study on the effect of inserting baffles on the material purity in the new sublimation purification system |
Shinshu Univ.1, Tokki Corp.2, JST-PRESTO3@iPjHyeon-Gu Jeon1, Yoshinari Kondo2, Shuji Maki2, Eiichi Matsumoto2, Yoshio Taniguchi1, Musubu Ichikawa1,3 |
|
9 |
Characteristics of Organic Light-Emitting Diodes Comprising Bipyridyl Substituted |
Shinshu Univ.1, Hodogaya Chemical Co.2, JST-Presto3@shunji Mochizuki1, shuichi Hayashi2, Norimasa Yokoyama2, Musubu Ichikawa1,3, Hyeon-Gu Jeon1 |
|
10 |
Formation of higher-order structure by intermolecular hydrogen bonds between pyridine-containing electron transporters |
Yamagata Univ.1, Waseda Univ.2@Daisuke Yokoyama1, Yukio Furukawa2, Junji Kido1 |
|
11 |
Organic light-emitting diodes with triazine derivatives as electron?transport layers |
JAIST1, TOSOH2, Sagami Chemical Research Center3@Keita Takahashi1, Toshinori Matsushima1, Mayumi Abe2, Yuuichi Miyashita2, Youko Honma2, Takeshi Tanaka2, Hidenori Aihara3, Hideyuki Murata1 |
| |
|
Lunch 12:00`13:00 |
|
| 17p-ZK - 1`8 |
|
1 |
Evaluation of organic light-emitting diodes by ESR |
Univ. of Tsukuba1, JST PRESTO2, Univ. of Nagoya3@iM2jkazuki Oshima1, Kazuhiro Marumoto1,2, Kenta Azuma1, Tatsuo Mori3 |
|
2 |
Analyses of Alq3 doped with electron donors by Raman spectroscopy |
Waseda Univ.1@Hidehiro Minashima1, Yukio Furukawa1 |
|
3 |
Infrared study on the orientation of a styrylbenzene derivative in a host-guest film |
Waseda Univ.1@Masaya Miyamura1, Yukio Furukawa1 |
|
4 |
Influence of Remaining Carriers on Transient Characteristics in CBP:Ir(ppy)3-Based Organic Light Emitting Diodes |
Ritsumaikan Univ1@Takashi Saitoh1, Syuuji Kojima1, Yoshiaki Satoh1, Kenichi Kasahara1 |
|
5 |
Development of novel phosphorescent Pt(II) complexes with extended Ξ-conjugation ligands for red electroluminescence |
TRI Osaka1, Osaka Pref. Univ.2@Yoshiaki Sakurai1, Tatsuya Shigehiro2, Yuji Inui2, Hidetaka Tsujimoto2, Takeshi Maeda2, Shigeyuki Yagi2, Hiroyuki Nakazumi2 |
|
6 |
Novel D/A-Type Host Materials with Divided HOMO / LUMO levels for Phosphorescence Organic Light-Emitting Diodes |
Shinshu Univ1, Hodogaya Chemical2, JST-Presto3@Sohei Otsuru1, Shuichi Hayashi2, Norimasa Yokoyama2, Jeon Hyeon-Gu1, Musubu Ichikwa1,3 |
|
7 |
Synthesis of 3,3f-bicarbazole-based host materials for blue PHOLEDs |
Yamagata Univ.1@iM1jNaoki Toyota1, Hisahiro Sasabe1, Tasuku Ishizaka1, Yong-Jin Pu1, Ken-ichi Nakayama1, Junji Kido1 |
|
8 |
High efficiency reverse intersystem crossing of exciplex states |
Kyushu Univ.1, OPERA2, CFC3@Kou Yoshida1, Kenichi Goushi2, Keigo Sato1, Chihaya Adachi1,2,3 |
| 12.9 Organic Transistors |
| Sept. 14 |
| 14a-H - 1`18 |
| |
Short Presentation (5 min.) 9:30`11:00
14a-H - 1`18@Poster Session 15:30`17:30 |
|
1 |
Benzobisthiazole-Based Semiconducting Copolymers Showing Excellent Environmental Stability in High-Humidity Air |
Hiroshima Univ.1, Carnegie Mellon Univ.2@Itaru Osaka1, Kazuo Takimiya1, Richard McCullough2 |
|
2 |
Air-stable, flexible and high-mobility field-effect transistors with thiazol-based polymers |
Osaka Univ.1, Hiroshima Univ.2, ISIR3@Kengo Nakayama1, Mayumi Uno1, Yasuhiro Nakazawa1, Itaru Osaka2, Kazuo Takimiya2, Junichi Takeya1,3 |
|
3 |
Carrier transport of conducting polymer nanofiber FET with modified insulating film and electrode |
Tokyo Univ. of Agri. and Tech1@Takeo Miki1, Takeshi Shimomura1 |
|
4 |
Thermal stability of organic transistors with thiophene series as organic semiconductor |
Univ. of Tokyo1, Max Planck Inst.2, Hiroshima Univ.3, Nippon Kayaku4@Kazunori Kuribara1, Naoya Uchiyama1, Kenjiro Fukuda1, Tomoyuki Yokota1, Tsuyoshi Sekitani1, Ute Zschieschang2, Hagen Klauk2, Tatsuya Yamamoto3, Kazuo Takimiya3, Masaaki Ikeda4, Hirokazu Kuwabara4, Takao Someya1 |
|
5 |
Organic field-effect transistors using host-guest system of soluble perylene bisimide |
Yamagata Univ.1, Chiba Univ.2@Yukihiro Maruya1, Kenichi Nakayama1, Tomohiro Seki2, Shiki Yagai2, Yong-Jin Pu1, Junji Kido1 |
|
6 |
Organic field-effect transistors based on fluorinated DBTTF derivatives. |
Tokyo Inst.1@Junki Nagakubo1, Takamasa Yoshino1, Koji Shibata1, Minoru Ashizawa1, Takehiko Mori1 |
|
7 |
Control of Crystal Growth Direction of 1,4-Bis((10-((4-(3,7-dimethyloctyloxy)phenyl)@ethynyl)anthracen-9-yl)ethynyl)benzene Thin Films and Their Carrier Transport Properties |
OPERA, Kyushu Univ.1, Dept Appl. Chem., Okayama Univ. Sci.2, CFC, Kyushu Univ.3@Takeshi Komino1, Masayuki Yahiro1, Akihiro Orita2, Junzo Otera2, Chihaya Adachi1,3 |
|
8 |
Solution Processable Organic Single Crystals with Band-Like Transport in Field-Effect Transistors |
MANA,NIMS1, CREST,JST2@Chuan Liu1, Takeo Minari1,2, Akichika Kumatani1, Kazuhito Tsukagoshi1,2 |
|
9 |
FET characteristics of glassy, beta-phase, and crystalline oriented polyfluorene thin films |
Osaka Pref. Univ.1, RIMED2@iDjToshiyuki Endo1, Takashi Kobayashi1,2, Takashi Nagase1,2, Hiroyoshi Naito1,2 |
|
10 |
Structure and Properties of Extended Ξ-Conjugated Furan Compounds |
Univ. of Toyama1@Takayuki Kameyama1, Naoto Hayashi1, Junro Yoshino1, Hiroyuki Higuchi1 |
|
11 |
Fabrication and Evaluation of Organic Field-Effect Transistor using CT complex |
Grad School of Sci. and Tech.,Niigata Univ.1, NNCT2, Centet for Transdisciplinary, Niigata Univ.3@Kentaro Nakai1, Masahiro Minagawa2, Akira Baba1,3, Kazunari Shinbo1,3, Keizo Kato1,3, Futao Kaneko1,3 |
|
12 |
Fabrication of organic transistors and integrated circuits with subfemtoliter inkjet |
School of Engineering, Univ. of Tokyo1, INQIE, Univ. of Tokyo2@Tomoyuki Yokota1, Yoshiaki Noguchi1, Sekitani Tsuyoshi1, Yusaku Kato1, Takao Someya1,2 |
|
13 |
Organic field-effect transistors based on benzodithiophene derivatives |
Wakayama Univ.1@Atsushi Kurokawa1, Kenta Nishijima1, Hideji Osuga1, Kazuyuki Uno1, Ichiro Tanaka1 |
|
14 |
Impedance Spectroscopy of Solution-Processable Organic Transistors Fabricated by a Self-Aligned Method |
Osaka Pref. Univ.1, RIMED2, TRI of Osaka Pref.3, OMTRI4@iM1jHideyuki Hatta1, Yuhi Miyagawa1, Takashi Nagase1,2, Takashi Kobayashi1,2, Shuichi Murakami3, Mitsuru Watanabe4, Kimihiro Matsukawa4, Hiroyoshi Naito1,2 |
|
15 |
Effect of nanoparticles dispersion on solution-processable organic field-effect transistors |
Osaka Pref. Univ.1, Citizen Holdings Co., LTD.2, RIMED3, Univ. Tokyo4, Fuso Chemical Co., LTD.5, OMTRI6@Masashi Yoshikawa1, Saori Yamazaki1,2, Takashi Nagase1,3, Takashi Hamada4, Takashi Kobayashi1,3, Yoshiki Michiwaki5, Seiji Watase6, Mitsuru Watanabe6, Kimihiro Matsukawa6, Hiroyoshi Naito1,3 |
|
16 |
Light-exposure dependence of field-effect hole mobility in pentacene thin films formed on photo-aligned polyimide films |
NIMS-ONC1@Junichi Ueno1, Kenji Sakamoto1, Kazushi Miki1 |
|
17 |
Solution-processed Organic Thin-film Transistors with Self-assembled Monolayer as Gate Insulator
|
PRI, AIST1, RCPV, AIST2, Tokyo Univ. Sci.3@yusuke tamaura1,3, noboru ohashi1,2, chikamatsu masayuki1, azumi reiko1, yase kiyoshi1, tamura masafumi3 |
| £ |
18 |
Performance improvement of organic field-effect transistors utilizing HfON higk-k gate insulator |
Tokyo Institute of Technology1@Min Liao1, Hiroshi Ishiwara1, Shun-ichiro Ohmi1 |
| 12.9 Organic Transistors |
| Sept. 15 9:00`18:30 |
| 15a-H - 1`11 |
|
1 |
Very High Mobility in Solution-Processed Organic Thin-Film Transistors of Highly Ordered [1]Benzothieno[3,2-b]benzothiophene Derivatives (20 min.) |
@Takafumi Uemura1 |
|
2 |
Charging-free Photoemission Measurement of Rubrene Single Crystals with Simultaneous Laser Illumination -Direct Observation of the HOMO-band Dispersion- |
AIS, Chiba Univ.1, CFS, Chiba Univ.2@Shin-ichi Machida1, Yasuo Nakayama2, Steffen Duhm1, Qian Xin1, Akihiro Funakoshi1, Naoki Ogawa1, Kera Satoshi1, Nobuo Ueno1, Hisao Ishii1,2 |
|
3 |
Chemical carrier doping into large IP organic semiconductor materials |
Chiba Univ.1@Shoutaro Masuda, Tatsuyoshi Okamoto, Masatoshi Sakai, Kazuhiro Kudo, Nakamura Masakazu |
|
4 |
Long-term air-stability of n-type OTFT using CN-CF3DSB with fluorine substituent |
Kyushu Inst. Tech.1@Shuichi Nagamatsu1, Kouji Kuramoto1, Daisuke Adachi1, Toshiya Nagase1, Shinya Oku1, Tetsuji Moriguchi1, Wataru Takashima1, Tatsuo Okauchi1, Katsuhiro Mizoguchi1, Shuzi Hayase1, Keiichi Kaneto1 |
|
5 |
Photoresponses in Anisotropic Field-Effect Transistors with Oriented Bisazomethine Dye Thin Film |
Yokohama Nat. Univ.1, RIKEN2, Sumitomo Chemical Co.3@Aya Ishizuka1, Tetsuya Aoyama2, Jean-Charles Ribierre2, Miei Sato1, Toshihiko Tanaka3, Shinya Matsumoto1 |
|
6 |
Reversible p-n Conversion in Thienoquinoid Semiconductor by Thermal Annealing and Solvent Vapor Treatment |
RIKEN1, Grad. Sch. Ind. Sci. Technol., Tokyo Univ. Sci.2, Grad. Sch. Env. Inf. Sci., Yokohama Nat. Univ.3@Tetsuya Aoyama1, Jean-Charles Ribierre1, Aiko Nakao1, Takashi Fujihara1, Tsuyoshi Muto1, Kazuto Takaishi1, Satoshi Watanabe2, Mutsuyoshi Matsumoto2, Ryohei Eto3, Shinya Matsumoto3, Satoru Inoue1, Atsuya Muranaka1, Daisuke Hashizume1, Masanobu Uchiyama1 |
| |
|
Break 10:35`10:50 |
|
| ’ |
7 |
Thin-Film FET Properties of Charge Transporting Materials Structurally Controlled by Electrostatic and CH???F Interactions |
The Univ. of Tokyo1, Stanford Univ.2@iM2jKatsumasa Nakahara1, Toshihiro Okamoto1, Joon-Hak Oh2, Hylke Akkerman2, Zhenan Bao2, Yutaka Matsuo1 |
| ’ |
8 |
Characterization of TIPS-Pentacene OFETs Utilizing Poly(p-silsesquioxane) Insulating Layer With Different Phenol Group |
Osaka Univ,Ctr.Adv.Sci.Innov.(CASI)1, Tokyo Ohka Kogyo Co.2@Yuta Nakanishi1, Hirotake Kajii1, Kouki Tamura2, Yutaka Ohmori1 |
| ’ |
9 |
Top-gate field-effect transistors based on solution-processed
dioctylbenzothieno[2,3-b]benzothiophene thin films |
Osaka Pref. Univ.1, RIMED2, Hiroshima Univ.3, Nippon Kayaku co. Ltd.4, CFC Kyusyu Univ.5@iDjToshiyuki Endo1, Takashi Kobayashi1,2, Takashi Nagase1,2, Kazuo Takimiya3, Masaaki Ikeda4,5, Hiroyoshi Naito1,2 |
| ’ |
10 |
Origin of Mobility Increase by Various Insulator-Surface Treatments in Pentacene Thin-Film Transistors |
Chiba Univ.1, Tokyo Institute of Technology2@Ryousuke Matsubara1, Toshio Nomura1, Masatoshi Sakai1, Kazuhiro Kudo1, Yutaka Majima2, Masakazu Nakamura1 |
| ’ |
11 |
Organic Single-Crystal Transistors Based on Ion-Gel |
Tohoku University1, Waseda University2, PRESTO3, Tokyo University4, CREST5@Yohei Yomogida1, Taishi Takenobu2,3, Di Wen2, Hidekazu Shimotani4, Yoshihiro Iwasa4,5 |
| |
|
Lunch 12:05`13:00 |
|
| 15p-H - 1`19 |
|
1 |
Organic transistor integrated circuits with excellent mechanical flexibility |
School of Eng. Univ. of Tokyo1@Tsuyoshi Sekitani1 |
|
2 |
Electronic states around defects in organic semiconductors by computational chemistry |
Hokkaido@Univ.1, Univ. Tokyo2@Toshihiro Shimada1, Manabu Ohotomo2, Takashi Yanase2, Tetsuya Hasegawa2 |
|
3 |
Carrier Distribution Evaluated by Charge Modulated Reflectance Image |
Tokyo Tech.1@iM2jSatoshi Kawashima1, Takaaki Manaka1, Mitsumasa Iwamoto1 |
|
4 |
Displacement current measurement for an operating pentacene field effect transistor -Observation of channel formation process - |
AIS, Chiba Univ.1, CFS, Chiba Univ.2@Yuya Tanaka1, Yutaka Noguchi1,2, Hisao Ishii1,2 |
|
5 |
Evaluation of charge trapping states at the interface of rubrene single-crystal FETs by ESR |
Univ. of Tsukuba1, JST PRESTO2, Osaka Univ.3, NRI-AIST4, Nagoya Univ.5, Waseda Univ.6, Univ. of Tokyo7@iM1jMasaki Tsuji1, Kazuhiro Marumoto1,2, Norimichi Arai1, Jun Takeya3,2, Yukihiro Shimoi4, Shin-ichi Kuroda5, Taishi Takenobu6,2, Yoshihiro Iwasa7 |
|
6 |
DFT Calculations of ESR g-values for Organic FET Materials |
NRI-AIST1, Nagoya Univ.2, Univ. of Tsukuba3, JST PRESTO4@Yukihiro Shimoi1, Hisaaki Tanaka2, Kazuhiro Marumoto3,4, Shin-ichi Kuroda2 |
|
7 |
Novel analysis of a transistor characteristic using ambipolar light-emission |
Tohoku Univ.1, Waseda Univ.2, PRESTO3, Univ. of Tokyo4, CREST5@Kosuke Sawabe1, Taishi Takenobu2,3, Yohei Yomogida1, Satria Bisri1, Yoshihiro Iwasa4,5 |
|
8 |
Charge Carrier Transport and Light-Emitting Characteristics of Organic Field-Effect Transistors Utilizing Blended Polyfluorene Derivatives
|
Osaka Univ, Ctr. Adv. Sci. Innov. (CASI)1@Kyohei Koiwai1, Hirotake Kajii1, Yutaka Ohmori1 |
| |
|
Break 15:15`15:30 |
|
|
9 |
Low threshold voltage bottom contact Organic-TFT |
PRI-AIST1@Toshikazu Yamada1, Kazuhiko Tokoro1, Tatsuo Hasegawa1 |
|
10 |
Pentacene Thin-Film Transistors with High Cutoff Frequency above 10 MHz |
NanoQuine, Univ. Tokyo1, IIS, Univ. Tokyo2@Masatoshi Kitamura1, Yasuhiko Arakawa1,2 |
|
11 |
Impact of insulator layer on memory performance in organic floating-gate memory transistors using self-assembled monolayers(SAMs) |
Univ. of Tokyo1, Max Planck Institute2@Takashi Nakagawa1, Tsuyoshi Sekitani1, Tomoyuki Yokota1, Ken Takeuchi1, Zshieschang Ute2, Klauk Hagen2, Tkao Someya1 |
|
12 |
4-V operational Braille display using Self-assembled monolayer gate dielectrics organic TFTs and carbon nanotube based actuator |
Univ. Tokyo1, Max Planck Inst.2, AIST3, Nippon Kayaku, Co. Ltd.4, Hiroshima Univ.5, Riken6, INQIE7@iDCjKenjiro Fukuda1, Kazunori Kuribara1, Tomoyuki Yokota1, Tsuyoshi Sekitani1, Ute Zschieschang2, Hagen Klauk2, Takushi Sugino3, Kinji Asaka3, Masaaki Ikeda4, Hirokazu Kuwabara4, Tatsuya Yamamoto5, Kazuo Takimiya5, Takanori Fukushima6, Takuzo Aida1, Takao Someya1,7 |
|
13 |
Integration of organic devices using a stacked structure |
Chiba Univ.1, Ricoh Co., Ltd2, Chiba Univ.3@Kodai Kikuchi1, Fanghua Pu1, Hiroshi Yamauchi1, Hiroyuki Iechi1.2, Masaaki Iizuka3, Masatoshi Sakai1, Masakazu Nakamura1, Kazuhiro Kudo1 |
|
14 |
P-type modulation in Metal Base Organic Transistors |
Yamagata Univ.1@iM1jRyotaro Akiba1, Ken-ichi Nakayama1, Yong-Jin Pu1, Junji Kido1 |
| |
|
Break 17:00`17:15 |
|
|
15 |
Double-shot inkjet printing technique for organic semiconducting materials |
PRI-AIST1@Hiromi Minemawari1, Hiroyuki Matsui1, Toshikazu Yamada1, Tatsuo Hasegawa1 |
|
16 |
C60 field-effect transistors fabricated by use of solution process |
Univ. of Tokyo, NanoQuine1, Univ. of Tokyo, IIS2@iDjWoogun Kang1,2, Masatoshi Kitamura2, Yasuhiko Arakawa1,2 |
|
17 |
OTFTs made by a wet-processing from nanoparticle colloid of organic semiconductor having thermotropic liquid crystalline phases |
Shinshu Univ.1, Dainichiseika Color & Chemicals Mfg. Co., Ltd.2, JST-PRESTO3@iPjHyeon-Gu Jeon1, Naomi Oguma2, Naoki Hirata2, Musubu Ichikawa1,3 |
|
18 |
High-Mobility Solution-Processed OFETs of 2, 9-Dialkyldinaphtho[2, 3-b: 2f, 3f-f]thieno[3, 2-b]thiophenes |
Osaka Univ. ISIR1, Osaka Univ.2, TRI-Osaka3, Hiroshima Univ.4@Takafumi Uemura1, Yuri Hirose1, Junshi Soeda2, Kengo Nakayama2, Yasuhiro Nakazawa2, Wanyan Li3, Mayumi Uno3, M Kang4, Kazuo Takimiya4, Junichi Takeya1,2 |
|
19 |
Fabrication and Evaluation of Organic CMOS inverters by Using a PDMS Stamp |
PRI AIST1, Tottori Univ.2@Yoshinori Horii1,2, Mitsuhiro Ikawa1, Shunsuke Nagoya1, Ming Lu1, Masayuki Chikamatsu1, Reiko Azumi1, Masahiko Kitagawa2, Hisatoshi Konishi2, Kiyoshi Yase1 |
| 12.9 Organic Transistors |
| Sept. 16 |
| 16a-H - 1`18 |
| |
Short Presentation (5 min.) 9:00`10:30
16a-H - 1`18@Poster Session 13:00`15:00 |
|
1 |
Fabrication and characterization of solution-processed organic FETs with top-contact graphene electrodes |
Saitama Univ.1, The Univ. of Tokyo2, Mitsubishi Gas Chemical Company3@Koichi Suganuma1, Koichiro Saiki2, Takuya Gotou3, Keiji Ueno1 |
|
2 |
All solution-processed top-gate organic thin film field effect transistors with graphene source/drain electrodes |
Saitama University1, The Univ. of Tokyo2, Mitsubishi Gas Chemical Company3@Shunichirou Watanabe1, Kouichi Suganuma1, Kouichirou Saiki2, Takuya Gotou3, Keiji Ueno1 |
|
3 |
Metal/Organic Co-deposited Source-Drain Electrodes |
AIST-PRI1@Naotoshi Suganuma1, Masayuki Chikamatsu1, Reiko Azumi1 |
|
4 |
Contact Resistance Reduction by Porphyrin Based Self-assembled Monolayer in Pentacene Thin-film Transisitors |
Tokyo Tech.1, Nagoya Univ.2, Tsukuba Univ.3, CREST-JST4@Yasuo Azuma1,4, Taiyo Suzuki1,4, Yasuyuki Yamada2,4, Kentaro Tanaka2,4, Masayuki Kanehara3,4, Toshiharu Teranishi3,4, Yutaka Majima1,4 |
|
5 |
Reduction of Contact Resistance in Rubrene Field-Effect Transistors by Modification of Self-Assembled Monolayers |
ISIR, Osaka Univ.1@Hideyuki Kawaguchi1, Masateru Taniguchi1, Tomoji Kawai1 |
|
6 |
Influence of interface between organic semiconductor and source-drain electrodes on bias stress shift in organic thin-film transistor |
NHK Sci. & Tech. Labs.1@Daisuke Kumaki1, Yoshihide Fujisaki1, Shizuo Tokito1 |
| £ |
7 |
Effects of Gold Nanoparticles on Transient and Steady-state Carrier Behaviour of Pentacene Organic Field-effect Transistors
|
Tokyo Tech.1, Slov. Aca. Sci.2@iDjKeanchuan LeeP, Wei Ou-Yang1, Martin Weis2, Dai Taguchi1, Takaaki Manaka1, Mitsumasa Iwamoto1 |
|
8 |
Modification of operation characteristics of pentacene FET by removal and re-addition of Na impurity into the PVA gate dielectric |
Saitama Univ.1, The Univ. of Tokyo2@iM1jYusuke Yoshinaga1, Koichiro Saiki2, Keiji Ueno1 |
|
9 |
Fabrication of ultrathin insulators on titanium thin films and its application toward organic field-effect transistors |
Dept. of Electronic Sci. & Eng. Kyoto Univ.1@iM1jYusuke Wakatsuki1, Kei Noda1, Kazumi Matsushige1 |
|
10 |
Response of OTFTs gas sensors: mobility and threshold voltage |
TOYOTA Central R&D Labs.1@Tomohiko Mori1, Yoshihiro Kikuzawa1, Koji Noda1 |
|
11 |
ESR analyses of high-mobility organic transistor materials:isolated molecules and thin films |
SCAS1, PRI-AIST2, Univ. of Tokyo3, Hiroshima Univ.4@Eiji Takahashi1,2, Hiroyuki Matsui2.3, Kazuo Takimiya4, Tatsuo Hasegawa2 |
|
12 |
Analysis of instability factors caused by polymer materials for polymer TFT |
AIST1@Kouji Suemori1, Misuzu Taniguchi1, Sei Uemura1, Manabu Yoshida1, Satoshi Hoshino1, Noriyuki Takada1, Takehito Kodzasa1, Toshihide Kamata1 |
|
13 |
Analysis of Interface-State Density in Pentacene TFTs Using In-Situ Field-Effect Thermally-Stimulated-Current Method (2) |
Chiba Univ.1@Takahiro Fujii1, Shigekazu Kuniyoshi1, Masatoshi Sakai1, Kazuhiro Kudo1, Masakazu Nakamura1 |
|
14 |
Polymorph selection in pentacene thin-film: MD simulation study |
AIST1, HCL2@makoto yoneya1, masahiro kawasaki2, masahiko ando2 |
|
15 |
Mobility Distribution Along the OFET Channel Evaluated by the SHG-CMS Imaging |
Tokyo Tech.1@Takaaki ManakaP, Satoshi Kawashima1, Yasuyuki Tanaka1, Mitsumasa Iwamoto1 |
|
16 |
Hysteresis of a pentacene transistor with an underlying Azo-compound layer |
Ritsumeikan Univ.1@iM1jTakehiro Okura1, Tatsuhiko Kawaguchi1, Ichiro Fujieda1 |
|
17 |
Origin of Contact Resistance in Organic Field-Effect Transistors |
Osaka Pref. Univ.1, The Research Inst. for Molecular Electronic Device2@Shuuhei Nishigami1, Takashi Nagase1,2, Takashi Kobayashi1,2, Hiroyoshi Naito1,2 |
|
18 |
Hall Effect in Pentacene Field-Effect Transistors |
Osaka Univ. ISIR1, Osaka Univ.2@Takafumi Uemura1, Masakazu Yamagishi2, Junshi Soeda2, Yuuichi Takatsuki2, Yuugo Okada2, Yasuhiro Nakazawa2, Junichi Takeya1,2 |
| 12.10 Special Field Sensing of Biomolecules, Bionanotechnology |
| Sept. 14 9:30`12:00 |
| 14a-M - 1`10 |
|
1 |
Immobilization of cytochrome c on Au-nanoparticle modified ITO electrode |
ISIR. Osaka Univ.1, AIST2@Yusuke Miyake1, Yusuke Ayato2, Takao Ishida2, Naoki Matsuda2, Yoshiaki Hirano1, Takuya Matsumoto1, Tomoji Kawai1 |
|
2 |
Detection of protein molecules adsorbed on solid surfaces by chemically modified probes |
Yokohama National Univ.1@Kenji Yamazaki1, Toshinari Isono1, Tomoya Wada1, Toshio Ogino1 |
| ’ |
3 |
Effect of surface morphology of antibody monolayer on the antigen-binding capacity |
Kyoto Univ.1, Inst. Front. Med. Sci.2, KU?SACI3@Keisuke Gohda1, Yuji Teramura2, Ryuji Yokokawa1, Shuichiro Kuwajima3, Isaku Kanno1, Hiroo Iwata2, Hidetoshi Kotera1 |
| ’ |
4 |
In situ scanning tunneling microscopic visualization of interaction between anionic phospholipids and calcium ion |
The Univ. of Tokyo1, RIKEN2@Soichiro Matsunaga1,2, Taro Yamada2, Maki Kawai1,2 |
|
5 |
Formation of artificial raft structures incorporated into supported lipid bilayers on single crystalline sapphire surfaces |
Yokohama National Univ.1@Toshinari Isono1, Kenji Yamazaki1, Tomoya Wada1, Toshio Ogino1 |
|
6 |
Phenomenology of Self-spreading of Lipid Bilayer on Patterned Surface |
NTT Basic Research Laboratories, NTT Corporation1@Kazuaki Furukawa1, Yoshiaki Kashimura1 |
|
7 |
Control of Lipid Bilayer Self-Spreading by External Electric Field |
NTT Basic Res. Labs.1@Yoshiaki Kashimura1, Kazuaki Furukawa1, Keiichi Torimitsu1 |
|
8 |
Functional analysis of ion channels in suspended lipid bilayers over micro-wells on Si |
NTT Basic Research Labs.1, Suzuka Nat. Coll. Tech.2@Arianna McAllister1, Koji Sumitomo1, Yukihiro Tamba2, Youichi Shinozaki1, Keiichi Torimitsu1 |
|
9 |
A mechanical and electrophysiological approach of channel gating by combined AFM with artificial bilayer technique |
ISIR-sanken, Osaka Univ.1, NCMSLS, GSFB, Osaka Univ.2, JST-PREST3@Mitsunori Kitta1, Minako Hirano2, Toshio Yanagida2, Hiroyuki Tanaka1,3, Toru Ide2, Tomoji Kawai1 |
|
10 |
Intravital Lipid Imaging by Swift Heavy Ion Probes |
Kyoto Univ.1, JST-CREST2@Yoshinobu Wakamatsu1, Hideaki Yamada1, Satoshi Ninomiya1,2, Toshio Seki1,2, Takaaki Aoki1,2, Akihiko Ishihara1, Jiro Matsuo1,2 |
| 12.10 Special Field Sensing of Biomolecules, Bionanotechnology |
| Sept. 15 9:00`17:15 |
| 15a-E - 1`11 |
| £’ |
1 |
Comparative study on carboxylic termination of crystal diamond (111) and (100) |
Waseda University1@iDjXianfen Wang1, Yuichiro Ishiyama1, Rahim Ruslinda1, Yoko Ishii1, Hiroshi Kawarada1 |
| ’ |
2 |
PDGF detection by carboxyl terminated diamond sensor |
Waseda University1@Takuma Kobayashi1, Yoko Ishii1, Yuichiro Ishiyama1, Mitsuhiro Tsunogai1, Ruslinda A.Rahim1, Hiroshi Kawarada1 |
| ’ |
3 |
HIV-1 Tat Protein detection by functionalized diamond sensor |
Waseda univ1@Mitsuhiro Tsunogai1, A.R Ruslinda1, Ishiyama Yuitirou1, Youko Ishii1, hiroshi Kawarada1 |
| ’ |
4 |
In-plane Solution Gate FET with a gate electrode on diamond surface |
Waseda Univ.1@Kyosuke Tanabe1, Yuichirou Ishiyama1, Hiroshi Kawarada1 |
| ’ |
5 |
Development of one dimension diamond SGFET array used titanium electrode. |
Waseda University1@Shoji Ibori1, Yuichiro Ishiyama1, Kyousuke Tanabe1, yoko Ishii1, Hiroshi Kawarada1 |
| |
|
Break 10:15`10:30 |
|
| ’ |
6 |
Single-molecule ePCR technology for large-scale DNA microarray tip |
Grad. Sch. of Eng. Toyo Univ.1, Grad. Sch. of Eng. Univ. of Tokyo2, JST-CREST3@Shuusuke Sato1, manish Biyani2,3, Takanori Akagi2, Yasuhiko Yoshida1, Takanori Ichiki2,3 |
|
7 |
Intaglio printing of protein array pattern using coupled transcription-translation system |
Tokyo Univ1, JST-CREST2@Junpei Moriyasu1, Biyani Manish1,2, Takanori Akagi1,2, Takanori Ichiki1,2 |
|
8 |
Nanophotonic chips based label-free detection of monoclonal antibody produced by hybridoma |
Photonics Advanced Research Center, Osaka Univ.1, Department of Applied Physics, Graduate school of Engineering, Osaka Univ.2@Kenji Kondoh1, Masato Saito2, Hiroyuki Yoshikawa2, Yoshinori Yamaguchi1, Eiichi Tamiya1,2 |
|
9 |
DNA Patterning Using Anodic Porous Alumina and@Its Hybridization Property |
Tokyo Metropolitan Univ.1, KAST.2@Yasuyuki Ishikawa1, Kazuyuki Nshio1,2, Hideki Masuda1,2 |
|
10 |
Modification of Biomoleucles into Void Cap-Shaped Nano-Shells and Practical Application of Produced Nano-Shells |
KAST1, Faculty of Life Sciences, Toyo Univ.2, Inst. Biomater. Bioeng., Tokyo Med. and Dent. Univ.3@Hyonchol Kim1, Masahito Hayashi1, Hideyuki Terazono1, Hiroyuki Takei1,2, Kenji Yasuda1,3 |
|
11 |
DNA nano-scale positioner based on photonically-controlled DNA structure |
Osaka Univ.1@Hiroto Sakai1, Yusuke Ogura1, Jun Tanida1 |
| |
|
Lunch 12:00`13:00 |
|
| 15p-E - 1`16 |
|
1 |
A plausible mechanism of Tween20 enhanced selective adsorption of Ti-binding ferritin |
Osaka Univ.1, JST-CREST2@Yurie Fukunishi1, Megumi Fukuta1,2, Kentaro Gamo1, Tatsuya Hashimoto1, Nobuyuki Zettsu1,2, Heiji Watanabe1,2 |
|
2 |
Investigation of selective adsorption mechanism for titanium binding peptide by surface modification of amphoteric oxide substrates |
Osaka Univ.1, JST-CREST2@Megumi Fukuta1,2, Nobuyuki Zettsu1,2, Heiji Watanabe1,2 |
|
3 |
2-dimensional arrangement of ferritin molecules for the surface of Si and GaAs |
Tohoku Univ.1, NAIST2, JST-CREST3@Makoto Igarashi1, 3, Rikako Tsukamoto1, 3, Chi-Hsien Huang1, 3, Xuan-yu Wang1, 3, bin Budiman Mohd Fairuz1, 3, Ichiro Yamashita2, 3, Seiji Samukawa1, 3 |
|
4 |
Two-Dimensional Crystallization of Ferritin Molecules from a Polymer Film Edge |
RIKEN ASI1, Tokyo Institute of Technology2@Yasuhiro Ikezoe1, Masahiko Hara1,2 |
|
5 |
Low Temperature Crystallization of a-Si film by Ni accommodated ferritin |
NAIST1, CREST2, Panasonic3@Kazushi Fuse1,2, Takashi Nishida1, Mutsunori Uenuma1,2, Yasuaki Ishikawa1, Ichirou Yamasita1,2,3, Yukiharu Uraoka1,2 |
|
6 |
Construction of a Ferritin Hetero-Dimer |
NAIST1, JST-CREST2@Bin Zheng1,2, Ichiro Yamashita1,2, Yukiharu Uraoka1,2 |
| ’ |
7 |
Preparation of Metal Nanoparticle Arrays Using a Tobacco Mosaic Virus |
NAIST1, JFCR2, JST-CREST3@Kei Hasegawa1, Mime Kobayashi1,2,3, Ichiro Yamashita1.3, Yukiharu Uraoka1,3, Hisao Yanagi1, Satoshi Tomita1.3 |
|
8 |
Ferritin protein-base versatile encapsulation/delivery system
for selective nanoscale positioning of targeted plasmonic Au nanoparticles |
Graduate school of Engineering, Osaka univ.1, NARA INSTITUTE of SCIENCE and TECHNOLOGY2, CREST3@iDjTatsuya Hashimoto1, Bin Zheng2,3, Megumi Fukuta1,3, Kentaro Gamo1, Nobuyuki Zettsu1,3, Ichiro Yamashita2,3, Yukiharu Uraoka2,3, Heiji Watanabe1,3 |
| ’ |
9 |
Selective adsorption behavior of Ti-binding ferritin on ultrathin titanium layers |
Osaka Univ.1, NAIST2, JST-CREST3@Kentaro Gamo1, Megumi Fukuta1,3, Tatsuya Hashimoto1, Bin Zheng2,3, Nobuyuki Zettsu1,3, Ichiro Yamashita2,3, Yukiharu Uraoka2,3, Heiji Watanabe1,3 |
| |
|
Break 15:15`15:30 |
|
|
10 |
Fabrication of plasmon biochip by using nanoimprint technology |
Applied Physics, Osaka Univ.1, Photonics Advanced Research Center, Osaka Univ.2@iM1jAkito Kitamura1, Masato Saito1, Kenji Kondou2, Eiichi Tamiya1 |
| ’ |
11 |
Silver nanoparticle formation by using a focused laser beam for biosensing application |
Osaka Univ.1@Takayuki Hironaka1, Hiroyuki Yoshikawa1, Eiichi Tamiya1, Masato Saito1 |
|
12 |
Estimation of Intercellular Adhesion Strength between Neurite and Mast Cell Utilizing Femtosecond Laser-induced Impulsive Force. Part 2. |
Grad. Sch. Mat. Sci., NAIST1, Inst. Med. Sci., Univ. Tokyo2, Kinki Univ.3, Tohoku Fukushi Univ.44, NCTU in Taiwan5@Takanori Iino1, Yoichiroh Hosokawa1, Man Hagiyama2, Akihiko Ito3, Kazunori Okano4, Hiroshi Masuhara1,5 |
|
13 |
Photoluminescence Measurement of Neurons using Glass Beads with Multiple CdSe/ZnS Quantum Dots at Single Particle Level |
AIST1, JST-CREST2@Chie Hosokawa1,2, Eriko Onishi1,2, Norio Murase1,2, Masanori Ando1,2, Kazunori Kawasaki1,2, Takahisa Taguchi1,2 |
|
14 |
Electrical measurements of a living cell using an end-active probe in liquid |
MANA-NIMS1, Univ. of Tsukuba2@Hiroyuki Tomimoto1, Hiromi Kuramochi1, Guoping Chen1,2, Masakazu Aono1, Tomonobu Nakayama1,2 |
| ’ |
15 |
Development of single-molecule imaging device using total internal reflection with transparent perfluoropolymer |
Sch. Eng. Univ. Tokyo1, JST-CREST2, Sch. Phar. Univ. Tokyo3, CNBI Univ. Tokyo4@Takao Ono1,2, Ryo Iizuka2,3,4, Takanori Akagi1,2,4, Takashi Funatsu2,3,4, Takanori Ichiki1,2,4 |
|
16 |
Realization of fast response of photoreceptive devices using ITO electrodes for both ends |
Tokyo Univ. of Tech.1@Akira Hidaka1, Yousuke Tsutida1, Seiko Mitachi1 |
| 12.10 Special Field Sensing of Biomolecules, Bionanotechnology |
| Sept. 16 9:00`12:15 |
| 16a-E - 1`12 |
|
1 |
Fabrication of Nanogap Electrodes Using Self-Breaking Technique for Single Molecule Identification |
ISIR-SANKEN, Osaka Univ.1@Kazuki Matsubara1, Masayuki Furuhashi1, Takahito Oshiro1, Makusu Tsutsui1, Masateru Taniguchi1, Tomoji Kawai1 |
|
2 |
Identifications of single nucleotides via tunneling current |
ISIR, Osaka Univ.1@Makusu Tsutsui1, Kazuki Mastubara1, Takahito Ohshiro1, Masayuki Furuhashi1, Masateru Taniguchi1, Tomoji Kawai1 |
|
3 |
Single-Molecule Identification of Physiological Relevant Nucleic Acids by Tunneling Current |
ISIR, Osaka Univ1@Takahito Ohshiro1, Makusu Tsutsui1, Kazuki Mastubara1, Masayuki Furuhashi1, Masateru Taniguchi1, Tomoji Kawai1 |
|
4 |
Identification of RNA molecules by tunneling conductance |
ISIR, Osaka Univ1@Masayuki Furuhashi1, Takahito Ohshiro1, Makusu Tsutsui1, Kazuki Matsubara1, Masateru Taniguchi1, Tomoji Kawai1 |
| £ |
5 |
Formation of nanopores utilizing SiC heteroepitaxial growth on SOI (100): Pit faced orientation |
Kyushu Univ.1@Yahaya Hafizal1, Hirofumi Sakita1, Yuta Nishino1, Yoshifumi Ikoma1, Teruaki Motooka1 |
|
6 |
High-Resolution Imaging and Hydration Structure Measurement of DNA in Liquids by FM-AFM |
Dept. of Electronic Sci. & Eng., Kyoto Univ.1, JST/Adv. Meas. & Analysis2, SACI, Kyoto Univ.3@Shinichiro Ido1, Noriaki Oyabu1,2, Kei Kobayashi2,3, Kazumi Matsushige1, Hirofumi Yamada1,2 |
| |
|
Break 10:30`10:45 |
|
|
7 |
Development of Frequency Modulation Microcantilever-based Biosensor Using Photothermal Excitation Method (2) |
Dept. of Electronic Sci. & Eng., Kyoto Univ.1, SACI, Kyoto Univ.2@Yotaro Kobayashi1, Kei Kobayashi2, Kei Noda1, Hirofumi Yamada1, Kazumi Matsushige1 |
| ’ |
8 |
Detection of specific interaction force in proteins by using a carbon nanotube probe |
Osaka Univ.1, CREST-JST2, Kyoto Univ.3@Madoka Yamaguchi1,2, Masahiro Nakano1,2, Hiroyuki Maruyama1,2, Shigehiro Yoshimura2,3, Kaori Hirahara1,2, Yoshikazu Nakayama1,2 |
|
9 |
Single Molecule Force Measurement on a Carbon Nanotube Sheet |
Osaka Univ.1, CREST-JST2, Kyoto Univ.3@Masahiro Nakano1,2, Madoka Yamaguchi1,2, Shigehiro Yoshimura2,3, Kaori Hirahara1,2, Yoshikazu Nakayama1,2 |
|
10 |
Evaluation of Interaction Force between DNA and Platinum Complex@by Atomic Force Microscopy |
Tokyo Univ. of Technology1@iM2jShougo Shimada1, Tomoko Okada1, Hirosi Muramatsu1 |
|
11 |
Optimization of extracellular matrix for cultured cell measurement with quartz crystal sensor
|
Tokyo Univ. of Technology1@iM1CjDaiki Kase1, Hyen-Wook Kang1, Hiroshi Muramatsu1 |
|
12 |
Fabrication of AFM probe for Nano bio-imaging
using the micro-photo polymerization method
|
Tokyo Univ. of Tech1@Yoshiteru Kawashima1, Hyen-Wook Kan1, Hiroshi Muramatu1 |