Members

Director of ROEL, Distinguished Professor Staff

Shizuo TOKITO

TEL: 0238-26-3725
E-mail: tokito<at>yz.yamagata-u.ac.jp
* Please rewrite "<at>" to "@" below e-mail addresses.

Education & Professional Experience

1982: B. A. Tokyo University of Agriculture and Technology
1984: M. A. Graduate School of Engineering Sciences, Kyushu University
1987: D. Eng. Graduate School of Engineering Sciences, Kyushu University

1987: Graduate School of Engineering Sciences, Kyushu University, Research Associate
1988: University of California, Santa Barbara, Postdoctoral Fellow
1990: Toyota Central R&D Labs., Inc., Researcher
2001: Japan Broadcasting Corporation (NHK), Senior Researcher
2003: Tokyo Institute of Technology, Graduate School of Science of Engineering, Adjunct professor (joint responsibility)
2009: Japan Broadcasting Corporation (NHK), Research Director
2010: Yamagata University, Distinguished Research Professor
2011: Vice Director of Research Center for Organic Electronics, Yamagata University
2015: Director of Research Center for Organic Electronics, Yamagata University

Research Interests

1. Organic semiconductors
2. Metallic nanoparticle inks
3. Organic thin film transistors and integrated circuits
4. Printed and flexible organic electronics
5. Flexible organic lighting diode display
6. Biosensors, etc.

Results

(210)"Organic Complementary Inverter Circuits Fabricated with Reverse Offset Printing"
Yasunori Takeda, Yudai Yoshimura, Rei Shiwaku, Kazuma Hayasaka, Tomohito Sekine, Tomoko Okamoto, Hiroyuki Matsui, Daisuke Kumaki, Yoshinori Katayama, Shizuo Tokito
Advanced Electronic Materials (2017), in press.
(209)"An organic transistor-based electrical assay for copper(II) in water"
Yui Sasaki, Tsuyoshi Minami, Tsukuru Minamiki, Shizuo Tokito
Electrochemistry (2017), in press.
(208)"Compact Organic Complementary D-Type Flip-Flop Circuits Fabricated with Inkjet Printing"
Kazuma Hayasaka, Hiroyuki Matsui, Yasunori Takeda, Rei Shiwaku, Yasuhiro Tanaka, Takeo Shiba, Daisuke Kumaki, Shizuo Tokito
Advanced Electronic Materials, DOI: 10.1002/aelm.201700208 (2017)
(207)"Label-Free Direct Electrical Detection of a Histidine-Rich Protein with Sub-Femtomolar Sensitivity using an Organic Field-Effect Transistor"
Tsukuru Minamiki, Yui Sasaki, Shizuo Tokito, Tsuyoshi Minami
ChemistryOpen, DOI: 10.1002/open.201700070. (2017)
(206)"A molecular self-assembled colourimetric chemosensor array for simultaneous detection of metal ions in water"
Yui Sasaki, Tsukuru Minamiki, Shizuo Tokito, Tsuyoshi Minami
Chemical communications, DOI: 10.1039/C7CC03218H (2017) [Inside Front Cover]
(205)"Development of a silver nanoparticle ink toward fine line patterning using gravure offset printing"
Daisuke Shiokawa, Konami Izumi, Ryo Sugano, Tomohito Sekine, Tsuyoshi Minami, Daisuke Kumaki, and Shizuo Tokito
Japanese Journal of Applied Physics, 56, Number 5S2 (2017)
(204)"Soft Blanket Gravure printing technology for finely patterned conductive layers on three-dimensional or curved surfaces"
Konami Izumi, Yasunori Yoshida, and Shizuo Tokito
Japanese Journal of Applied Physics, 56, Number 5S2 (2017)
(203)"Printed Organic Inverter Circuits with Ultralow Operating Voltages"
Rei Shiwaku, Hiroyuki Matsui, Kazuma Hayasaka, Yasunori Takeda, Takashi Fukuda, Daisuke Kumaki, Shizuo Tokito
Advanced Electronic Materials, DOI: 10.1002/aelm.201600557 (2017)
(202)"Effects of silver nanowire concentration on resistivity and flexibility in hybrid conducting films"
Konami Izumi, Yuto Ochiai, Daisuke Shiokawa, Yasunori Yoshida, Daisuke Kumaki, and Shizuo Tokito
Japanese Journal of Applied Physics, 56, Number 5S2 (2017)
(201)"Highly conductive metal interconnects on three-dimensional objects fabricated with omnidirectional ink jet printing technology"
Yasunori Yoshida, Hikaru Wada, Konami Izumi, and Shizuo Tokito
Japanese Journal of Applied Physics, 56, Number 5S2 (2017)
(200)"Asymmetric Alkylthienyl Thienoacenes Derived from Anthra[2,3-b]thieno[2,3-d]thiophene for Solution-Processable Organic Semiconductors"
Yuta Ogawa, Kazuhiro Yamamoto, Chiyo Miura, Shigeki Tamura, Mitsuki Saito, Masashi Mamada, Daisuke Kumaki, Shizuo Tokito, and Hiroshi Katagiri
ACS Appl. Mater. Interfaces, 2017, 9 (11), pp 9902–9909 (2017)
(199)"Low-Band Gap Bistetracene-Based Organic Semiconductors Exhibiting Air Stability, High Aromaticity and Mobility"
Kamal Sbargoud, Masashi Mamada, Tanguy Jousselin-Oba, Yasunori Takeda, Shizuo Tokito, Abderrahim Yassar, and Jérôme Marrot
Chemistry - A European Journal, (2017)(Accepted:http://dx.doi.org/10.1002/chem.201605906. )
(198)"Synthesis, crystal structure, and FET characteristics of thieno[2,3-b]thiophene-based bent-thienoacenes"
Yuta Ogawa, Erika Takiguchi, Masashi Mamada, Daisuke Kumaki, Shizuo Tokito, and Hiroshi Katagiri
Tetrahedron Letters, 10, 963–967 (2017)
(197)"Mechanical Fatigue Behavior of Flexible Printed Organic Thin-Film Transistors under Applied Strain"
Tomohito Sekine, Daisuke Kumaki, and Shizuo Tokito
Materials, 10, 1 (2017)
(196)"Label-Free Detection of Human Glycoprotein (CgA) Using an Extended-Gated Organic Transistor-Based Immunosensor"
Tsukuru Minamiki, Tsuyoshi Minami, Yui Sasaki, Shin-ichi Wakida, Ryoji Kurita, Osamu Niwa and Shizuo Tokito
Sensors, 16, 2033 (2016)
(195)"Three-Dimensional, Inkjet-Printed Organic Transistors and Integrated Circuits with 100% Yield, High Uniformity, and Long-Term Stability"
Jimin Kwon, Yasunori Takeda, Kenjiro Fukuda, Kilwon Cho, Shizuo Tokito, and Sungjune Jung
ACS Nano, 10, pp.10324-10330 (2016)"Cover Picture"
(194)"Crystal Structure and Theoretical Investigation of Charge Transport Properties of Fullerene Derivatives"
Masashi Mamada, Hiroshi Katagiri, Tomo Sakanoue, and Shizuo Tokito
Chem. Lett., 45, 1421–1424. DOI:10.1246/cl.160802 (2016)
(193)"Printed 2 V-operating organic inverter arrays employing a small-molecule/polymer blend"
Rei Shiwaku, Yasunori Takeda, Takashi Fukuda, Kenjiro Fukuda, Hiroyuki Matsui, Daisuke Kumaki and Shizuo Tokito
Scientific Reports, 6, 34723 (2016)
(192)"The effect of mechanical strain on contact resistance in flexible printed organic thin-film transistors"
Tomohito Sekine, Kenjiro Fukuda, Daisuke Kumaki and Shizuo Tokito
Flexible and Printed Electronics, 1, 035005 (2016)
(191)"Fully printed and flexible ferroelectric capacitors based on a ferroelectric polymer for pressure detection"
Tomohito Sekine, Ryo Sugano, Tomoya Tashiro, Kenjiro Fukuda, Daisuke Kumaki, Fabrice Domingues Dos Santos, Atsushi Miyabo and Shizuo Tokito
Japanese Journal of Applied Physics, 55, 10TA18 (2016)
(190)"Ultrathin flexible memory devices based on organic ferroelectric transistors"
Ryo Sugano, Yoshinori Hirai, Tomoya Tashiro, Tomohito Sekine, Kenjiro Fukuda, Daisuke Kumaki, Fabrice Domingues dos Santos, Atsushi Miyabo and Shizuo Tokito
Japanese Journal of Applied Physics, 55, 10TA04 (2016)
(189)"Synthesis and solid-state polymerization of diacetylene derivatives directly substituted with a phenylcarbazole moiety"
Masataka Ikeshima, Masashi Mamada, Tsuyoshi Minami, Shizuo Tokito, and Shuji Okada
Polymer Journal, 48, 1013–1018. DOI:10.1038/pj.2016.67 (2016)
(188)"Free-Standing Organic Transistors and Circuits with Sub-Micron Thicknesses"
Kenjiro Fukuda, Tomohito Sekine, Rei Shiwaku, Takuya Morimoto, Daisuke Kumaki and Shizuo Tokito
Scientific Reports, 6, 27450 (2016)
(187)"Fabrication of Ultra-Thin Printed Organic TFT CMOS Logic Circuits Optimized for Low-Voltage Wearable Sensor Applications"
Yasunori Takeda, Kazuma Hayasaka, Rei Shiwaku, Koji Yokosawa, Takeo Shiba, Masashi Mamada, Daisuke Kumaki, Kenjiro Fukuda and Shizuo Tokito
Scientific Reports, 6, 25714 (2016)
(186)"Vertically Stacked Complementary Organic Field-Effect Transistors and Logic Circuits Fabricated by Inkjet-Printing"
Jimin Kwon, Yasunori Takeda, Kenjiro Fukuda, Kilwon Cho, Shizuo Tokito and Sungjune Jung
Advanced Electronic Materials, 1600046 (2016)
(185)"Crystal structure and modeled charge carrier mobility of benzobis(thiadiazole) derivatives"
Masashi Mamada, Harunori Fujita, Kazuaki Kakita, Hidetaka Shima, Yasuhiro Yoneda, Yasuhiro Tanaka and Shizuo Tokito
New J. Chem., 2016, 40, 1403-1411 (2016)
(184)"Detection of mercury(II) ion in water using an organic field-effect transistor with a cysteine-immobilized gold electrode"
Tsuyoshi Minami, Tsukuru Minamiki, and Shizuo Tokito
Japanese Journal of Applied Physics, 55, 04EL02 (2016)
(183)"Selective nitrate detection by an enzymatic sensor based on an extended-gate type organic field-effect transistor"
Tsuyoshi Minami, Yui Sasaki, Tsukuru Minamiki, Shin-ichi Wakida, Ryoji Kurita, Osamu Niwa, and Shizuo Tokito
Biosensors and Bioelectronics, 81, pp 87–91 (2016)
(182)"Antibody- and Label-Free Phosphoprotein Sensor Device Based on an Organic Transistor"
Tsukuru Minamiki, Tsuyoshi Minami, Petr Koutnik, Pavel AnzenbacherJr., and Shizuo Tokito
Anal. Chem., 88 (2), pp 1092–1095 (2016)
(181)"Enhanced memory characteristics in organic ferroelectric field-effect transistors through thermal annealing"
Ryo Sugano, Tomoya Tashiro, Tomohito Sekine, Kenjiro Fukuda, Daisuke Kumaki and Shizuo Tokito
AIP Advances, 5, 117106 (2015)
(180)"A mercury(II) ion sensor device based on an organic field effect transistor with an extended-gate modified by dipicolylamine"
Tsuyoshi Minami, Yui Sasaki, Tsukuru Minamiki, Petr Koutnik, Pavel Anzenbacher, Jr. and Shizuo Tokito
Chem. Commun., Advance Article, 51, 17666 (2015)
(179)"A Solution-Processed Organic Thin-Film Transistor Backplane for Flexible Multiphoton Emission Organic Light-Emitting Diode Displays"
Makoto Mizukami, Shinya Oku, Seung-Il Cho, Masahiro Tatetsu, Miho Abiko, Masashi Mamada, Tomo Sakanoue, Yoshiyuki Suzuri, Junji Kido and Shizuo Tokito
IEEE Electron Device Letters,36, 8, 841–843 (2015)
(178)"Enhanced adhesion mechanisms between printed nano-silver electrodes and underlying polymer layers"
Tomohito Sekine, Kenjiro Fukuda, Daisuke Kumaki and Shizuo Tokito
Nanotechnology,26, 32101 (2015)
(177) "An Organic Field-effect Transistor with an Extended-gate Electrode Capable of Detecting Human Immunoglobulin A"
Tsukuru Minamiki, Tsuyoshi Minami, Yui Sasaki, Ryoji Kurita, Osamu Niwa, Shin-ichi Wakida and Shizuo Tokito
Analytical Sciences, 31,725 (2015)
(176) "An Extended-gate Type Organic FET Based Biosensor for Detecting Biogenic Amines in Aqueous Solution"
Tsuyoshi Minami, Tsubasa Sato, Tsukuru Minamiki and Shizuo Tokito
Analytical Sciences,31, 721 (2015)(Selected as a Hot Article)
(175) "Inkjet-printed copper electrodes using photonic sintering and their application to organic thin-film transistors"
Shohei Norita, Daisuke Kumaki, Yu Kobayashia, Tsubasa Sato, Kenjiro Fukuda and Shizuo Tokito
Organic Electronics,25, 131-134 (2015)
(174) "A novel OFET-based biosensor for the selective and sensitive detection of lactate levels"
Tsuyoshi Minami, Tsubasa Sato, Tsukuru Minamiki, Kenjiro Fukuda, Daisuke Kumaki and Shizuo Tokito
Biosensors and Bioelectronics,74, 45-48 (2015)
(173) "Reverse-Offset Printing Optimized for Scalable Organic Thin-Film Transistors with Submicrometer Channel Lengths"
Kenjiro Fukuda, Yudai Yoshimura, Tomoko Okamoto, Yasunori Takeda, Daisuke Kumaki, Yoshinori Katayama and Shizuo Tokito
Advanced Electronic Materials, 1, 1500145 (2015)
(172) "An anion sensor based on an organic field effect transistor"
Tsuyoshi Minami, Tsukuru Minamiki and Shizuo Tokito
Chemical Communications, 51, 9491-9494 (2015)
(171)"Printed Organic Transistors with Uniform Electrical Performance and Their Application to Amplifiers in Biosensors"
Kenjiro Fukuda, Tsukuru Minamiki, Tsuyoshi Minami, Makoto Watanabe, Takashi Fukuda, Daisuke Kumaki and Shizuo Tokito
Advanced Electronic Materials, 1, 1400052 (2015)
(170)"Diindeno[1,2-b:2',1'-n]Perylene: a Closed Shell related Chichibabin’s Hydrocarbon, Synthesis, Molecular Packing, Electronic and Charge Transport Properties"
Kamal Sbargoud, Masashi Mamada, Jérôme Marrot, Shizuo Tokito, Abderrahim Yassar and Michel Frigoli
Chemical Science, 6, 3402–3409 (2015)
(169)"Synthesis and Solid-State Polymerization of Diacetylene Derivatives with an N-Carbazolylphenyl Group"
M. Ikeshima, M. Mamada, H. Katagiri, T. Minami, S. Okada and S. Tokito
Bulletin of the Chemical Society of Japan, 88, No. 6, 843-849 (2015)
(168)"Highly stable flexible printed organic thin-film transistor devices under high strain conditions using semiconducting polymers"
Tomohito Sekine, Kenjiro Fukuda, Daisuke Kumaki and Shizuo Tokito
Journal of Applied Physics, 54, 04DK10 (2015)
(167)"A Flip-Flop Logic Circuit based on Fully Solution-Processed OTFT Devices with Reduced Variations in Electrical Performance"
Y. Takeda, Y. Yoshimura, F. A. E. B. Adib, D. Kumaki, K. Fukuda and S. Tokito
Japanese Journal of Applied Physics, 54, 04DK03 (2015)
(166)“Extended-gate organic field-effect transistor for the detection of histamine in water”
T. Minamiki, T. Minami, D. Yokoyama, K. Fukuda, D. Kumaki and S. Tokito
Japanese Journal of Applied Physics,54, 04DK02 (2015)
(165) "Cysteine Detection in Water using an Organic Field Effect Transistor (OFET) with a Gold Extended-Gate Electrode"
Tsuyoshi Minami, Tsukuru Minamiki, Kenjiro Fukuda, Daisuke Kumaki, Shizuo Tokito
Jpn. J. Appl. Phys., 54, 04DK01 (2015)
(164)"Control of threshold voltage in organic thin-film transistors by modifying gate electrode surface with MoOX aqueous solution and inverter circuit applications"
Rei Shiwaku, Yudai Yoshimura, Yasunori Takeda, Kenjiro Fukuda, Daisuke Kumaki and Shizuo Tokito
Applied Physics Letters,106, 053301 (2015)
(163)"Characterization of New Rubrene Analogues with Heteroaryl Substituents"
M. Mamada, H. Katagiri, T. Sakanoue and S. Tokito
Crystal Growth & Design,15, 442-448 (2015)
(162) "A Unique Solution Processable n-Type Semiconductor Material Design for High Performance Organic Field-Effect Transistors"
M. Mamada, H. Shima, Y. Yoneda, T. Shimano, N. Yamada, K. Kakita, T. Machida, Y. Tanaka, S. Aotsuka, D. Kumaki, and S. Tokito
Chemistry of Materials, 27 (1), 141–147 (2015)
(161) "Benzimidazole Derivatives: Synthesis, Physical Properties, and n-Type Semiconducting Properties"
Masashi Mamada, César Pérez-Bolívar, Daisuke Kumaki, Nina A. Esipenko, Shizuo Tokito and Pavel Anzenbacher Jr.
Chemistry - A European Journal, 20, 11835–11846 (2014)
(160) "Synthesis of Narrow Bandgap Polymers based on Benzobis(thiadiazole) and their Application to Organic Transistor Devices"
Masashi Mamada, Taisuke Uemura, Ryo Teraoka, Daisuke Kumaki and Shizuo Tokito
Journal of Photopolymer Science and Technology, 27, 321-326 (2014)
(159) "An extended-gate type organic field effect transistor functionalised by phenylboronic acid for saccharide detection in water "
Tsuyoshi Minami, Ttsukuru Minamiki, Yuki Hashima, Daisuke Yokoyama, Tomohito Sekine, Kenjiro Fukuda, Daisuke Kumaki, and Shizuo Tokito.
Chem. Commun., 50, 15613. (2014)
(158) "A Label-Free Immunosensor for IgG Based on an Extended-Gate Type Organic Field Effect Transistor"
Tsukuru Minamiki, Tsuyoshi Minami, Ryoji Kurita, Osamu Niwa, Shin-ichi Wakida, Kenjiro Fukuda, Daisuke Kumaki, and Shizuo Tokito.
Materials7, 6843. (2014) (Invited Paper).
(157) "High-Speed operation in printed organic inverter circuits with short channel length"
Yudai Yoshimura, Yasunori Takeda, Kenjiro Fukuda, Daisuke Kumaki, and Shizuo Tokito
Organic Electronics, 15 2696–2701 (2014).
(156) "Fully-printed high-performance organic thin-film transistors and circuitry on one-micron-thick polymer films"
Kenjiro Fukuda, Yasunori Takeda, Yudai Yoshimura, Rei Shiwaku, Lam Truc Tran, Tomohito Sekine, Makoto Mizukami, Daisuke Kumaki, and Shizuo Tokito
Nature Communications, 5, 4147 (2014).
(155) "Accurate and reproducible detection of proteins in water using an extended-gate type organic transistor biosensor"
Tsukuru Minamiki, Tsuyoshi Minami, Ryoji Kurita, Osamu Niwa, Shinichi Wakida, Kenjiro Fukuda, Daisuke Kumaki, and Shizuo Tokito
Applied Physics Letters, 104, 243703 (2014).
(154) "Synthesis and Thin-Film Transistor Characterization of Narrow-Gap N-type Semiconducting Polymers based on Benzobis (thiadiazole)",
Taisuke Uemura, Masashi Mamada, Ryo Teraoka, Daisuke Kumaki, and Shizuo Tokito,
Chemistry Letters, Vol.43, 4, pp.402-404 (2014)
(153) "Fine patterning method for silver nanoparticle electrodes using differential hydrophobic and hydrophilic surface properties"
Ryo Sugano, Yasunori Takeda, Yu Kobayashi, Kenjiro Fukuda, Daisuke Kumaki, and Shizuo Tokito
Japanese Journal of Applied Physics, 53, 04EK01 (2014).
(152) "Improvement of mechanical durability on organic TFT with printed electrodes prepared from nanoparticle ink"
Tomohito Sekine, Hideaki Ikeda, Akifumi Kosakai, Kenjiro Fukuda, Daisuke Kumaki, Shizuo Tokito
Applied Surface Science, 294, 20-23 (2014).
(151) "Fully Solution-Processed Flexible Organic Thin Film Transistor Arrays with High Mobility and Exceptional Uniformity"
Kenjiro Fukuda, Yasunori Takeda, Makoto Mizukami, Daisuke Kumaki & Shizuo Tokito
Scientific Reports, 4, 3947 (2014).
(150) "Integrated circuits using fully solution-processed organic TFT devices with printed silver electrodes"
Yasunori Takeda, Yudai Yoshimura, Yu Kobayashi, Daisuke Kumaki, Kenjiro Fukuda, and Shizuo Tokito
Organic Electronics, 14, 3362-3370 (2013).
(149)"syn-/anti-Anthradithiophene Derivative lsomer Effects on Semiconducting Properties"
M. Mamada, H. Katagiri, M. Mizukami, K. Honda, T. Minamiki, R. Teraoka, T. Uemura, and S. Tokito.
ACS Applied Materials & Interfaces, 2013, 5(19), pp9670-9677 (2013).
(148)"Synthesis of Semiconducting Polymers through Soluble Precursor Polymers with Thermally Removable Groups and Their Application to Organic Transistors"
T. Uemura, M. Mamada, D. Kumaki, and S. Tokito,
ACS Macro Letters, 2013, 2, pp830-833 (2013)
(147)"Strain sensitivity and durability in p-type and n-type organic thin-film transistors with printed silver electrodes"
Kenjiro Fukuda, Kenta Hikichi, Tomohito Sekine, Yasunori Takeda, Tsukuru Minamiki, Daisuke Kumaki, and S. Tokito
Scientific Reports, 3, 2048 (2013)
(146)"Patterning Method for Silver Nanoparticle Electrodes in Fully Solution-Processed Organic Thin-Film Transistors Using Selectively Treated Hydrophilic and Hydrophobic Surfaces"
Kenjiro Fukuda, Yasunori Takeda, Yu Kobayashi, Masahiro Shimizu, Tomohito Sekine, Daisuke Kumaki, Masato Kurihara, Masatomi Sakamoto, and Shizuo Tokito
Japanese Journal of Applied Physics, 52, 05DB05 (2013)
(145)"Profile Control of Inkjet Printed Silver Electrodes and their Application to Organic Transistors"
Kenjiro Fukuda, Tomohito Sekine, Daisuke Kumaki, and Shizuo Tokito
ACS Applied Materials & Interfaces, 5, 3916-3920 (2013)
(144)"Suppression of threshold voltage shifts in organic thin-film transistors with bilayer gate dielectrics"
Kenjiro Fukuda, Tatsuya Suzuki, Takuma Kobayashi, Daisuke Kumaki, and S. Tokito
Physica Status Solidi A, 210, 839-844 (2013)
(143)"Reduced contact resistance and highly stable operation in polymer thin-film transistor with aqueous MoOx solution contact treatment"
D.Kumaki, Y. Fujisaki, and S. Tokito
Organic Electronics, 13, 475-478 (2013)
(142)"Synthesis, Physical Properties, and Field-Effect Mobility of Isomerically Pure syn-/anti-Anthradithiophene Derivatives"
Masashi Mamada, Tsukuru Minamiki, Hiroshi Katagiri, and Shizuo Tokito
Organic Letters, 14, 4062-4065 (2012)
(141)"Organic integrated circuits using room-temperature sintered silver nanoparticles as printed electrodes"
Kenjiro Fukuda, Tomohito Sekine, Yu Kobayashi, Yasunori Takeda, Masahiro Shimizu, Naoya Yamashita, Daisuke Kumaki, Mitsunori Itoh, Minami Nagaoka, Takami Toda, Sayaka Saito, Masato Kurihara, Masatomi Sakamoto, and Shizuo Tokito
Organic Electronics, 13, 3296-3301 (2012)
(140)"Reverse DC bias stress shifts in organic thin-film transistors with gate dielectrics using parylene-C"
Kenjiro Fukuda, Tatsuya Suzuki, Daisuke Kumaki, and Shizuo Tokito
Physica Status Solidi A, 209,2073-2077 (2012)
(139)“Stable organic thin-film transistors using full solution-processing and low-temperature sintering silver nanoparticle inks”
Kenjiro Fukuda, Tomohito Sekine, Yu Kobayashi, Daisuke Kumaki, Mitsunori Itoh, Minami Nagaoka, Takami Toda, Sayaka Saito, Masato Kurihara, Masatomi Sakamoto, Shizuo Tokito
Organic Electronics,13, 1660-1664, (2012)
(138)“Anthracene derivatives as efficient emitting hosts for blue organic light-emitting diodes utilizing triplet-triplet annihilation”
H. Fukagawa, T. Shimizu , N. Ohbe, S. Tokito, K. Tokumaru, and H. Fujikake
Organic Electronics 13, 1197-1203(2012)
(137)“Correlation between interdomain carrier hopping and apparent mobility in polycrystalline organic transistors as investigated by electron spin resonance”
Hiroyuki Matsui, Daisuke Kumaki, Eiji Takahashi, Kazuo Takimiya, Shizuo Tokito, and Tatsuo Hasegawa
PHYSICAL REVIEW B, 85, pp.035308, (2012)
(136)“Low-temperature fabrication of 5-in. QVGA flexible AMOLED display driven by OTFTs using olefin polymer as the gate insulator”
Y. Nakajima, Y. Fujisaki, T. Takei, H. Sato, M. Nakata, M. Suzuki, H. Fukagawa, G. Motomura, T. Shimizu, Y. Isogai, K. Sugitani, T. Katoh, S. Tokito, T. Yamamoto, and H. Fujikake
Journal of the SID, 19/12, 861-866 (2011)
(135)“Simply structured, deep-blue phosphorescent organic light-emitting diode with bipolar host material”
H. Fukagawa, S. Irisa, H. Hanashima, T. Shimizu, S. Tokito, N. Yokoyama, and H. Fujikake
Organic Electronics 12, 1638-1643(2011)
(134) “Organic field-effect transistors based on novel organic semiconductors containing diazaboroles”
Takahiro Kojima, Daisuke Kumaki, Junich Nishida, Shizuo Tokito, Yoshiro Yamashita
Journal of Materials Chemistry, 21, pp.6607-66613, (2011)
(133) “Organic Field-Effect Transistors Based on 3-Extended Dibenzotetrathiafulvalene Analogues with Thiophene Spacers”
K. Omata, M. Mamada, J. Nishida, S. Tokito, and Y. Yamashita
Bull. Chem. Soc. Jpn. 83, 575-581 (2010)
(132)“Synthesis and FET characteristics of phenylene-vinylene and anthracene-vinylene compounds containing cyano groups”
Kohei Shoji, Jun-ichi Nishidaida, Daisuke Kumaki, Shizuo Tokito, Yoshiro Yamashita
Journal of Materials Chemistry, 20, pp.6472-6478, (2010)
(131) “Air-stable n-type organic thin-film transistor array and high gain complementary inverter on flexible substrate”
Yoshihide Fujisaki, Yoshiki Nakajima, Daisuke Kumaki, Toshihiro Yamamoto, Shizuo Tokito, Takahiro Kono, Jun-ichi Nishida, and Yoshiro Yamashita
Applied Physics Letter, 97, pp.113303-1-3, (2010)
(130) “Dithienobenzobis (thiadiazole) Based Organic Semiconductors with Low LUMO Levels and Narrow Energy Gaps”
Takahiro Kouno, Daisuke Kumaki, Junich Nishida, Shizuo Tokito, Yoshiro Yamashita
Chemical Communications, 46, pp.3265-3267, (2010)
(129) “Novel Semiconducting Quinone for Air-Stable n-Type Organic Field-Effect Transistors”
Masashi Mamada, Daisuke Kumaki, Junich Nishida, Shizuo Tokito, Yoshiro Yamashita
ACS Applied Materials and Interfaces, 2, pp.1303-1307, (2010)
(128) “Anthraquinone derivatives affording n-type organic thin film transistors”
M. Mamada, JI. Nishida, S. Tokito, and Y. Yamashita
Chemical Communications 16, 2177-2179(2009)
(127) “A 5.8-in. phosphorescent color AMOLED display fabricated by ink-jet printing on plastic substrate”
M. Suzuki, H. Fukagawa, Y. Nakajima, T. Tsuzuki, T. Takei, T. Yamamoto, and S. Tokito
Journal of the Society for Information Display 17, 1037-1042(2009)
(126) “Efficient white organic light emitting diodes with solution processed and vacuum deposited emitting layers”
H. Fukagawa, K. Watanabe, and S. Tokito
Organic Electronics 10, 798-802(2009)
(125) “Low-Voltage and Hysteresis-Free N-Type Organic Thin Film Transistor and Complementary Inverter with Bilayer Gate Insulator”
Yoshihide Fujisaki, Masashi Mamada, Daisuke Kumaki, Shizuo Tokito, Yoshiro Yamashita
Japanese Journal of Applied Physics, 48, 111504, (2009)
(124) “New n-Type-Field effect Transistors Compounds with (Trifluoromethyl)phenyl Groups)"
T. Kojima, J. Nishida, S. Tokito, and Y. Yamashita
Chemistry Letters 38, 428-429(2009)
(123) “High efficient and stable organic light-emitting diode using 4,4’-bis(N-carbazolyl)-9,9’-spirobifluorene as a thermally stable host materials”
T. Tsuzuki, and S. Tokito
Applied Physics Letters 94, 033302(2009)
(122) “Fabrication of 5.8-in. OTFT-driven flexible color AMOLED display using dual protection scheme for organic semiconductor patterning”
Y. Nakajima, T. Takei, T. Tsuzuki, M. Suzuki, H. Fukagawa, T. Yamamoto, and S. Tokito
Journal of the SID 17/8, 629634(2009)
(121) “Surface-energy-dependent field-effect mobilities up to 1 cm2/Vs for polymer thin-film transistor”
T. Umeda, D. Kumaki, and S. Tokito
Journal of Applied Physics 105, 024516 1-5(2009)
(120) “High performance n-type field-effect transistors based on indenofluorenedione and diindenopyrazinedione derivatives”
T. Nakagawa, D. Kumaki, JI. Nishida, S. Tokito, and Y. Yamashita
Chemistry of Materials 20, 2615-2617(2008)
(119) “What's new in digital displays?”
F. Sato, T. Kurita, S. Tokito, H. Fijikake, H. Kikuchi, Y. Inoue
Ieee Industry Applications Magazine 14, 31-35(2008)
(118) “A 5-in. flexible ferroelectric liquid-crystal display driven by organic thin-film transistors”
Y. Fujisaki, H. Sato, T. Takei, T. Yamamoto, H. Fujikake, S. Tokito, and T. Kurita
Journal of the Society for Information Display 16, 1251-1257(2008)
(117) “High performance organic field-effect transistors based on [2,2’]bi[naphtha[2,3-b]thiophenyl] with a simple structure”
M. Mamada, J. Nishida, D. Kumaki, S. Tokito, and Y. Yamashita
Journal of Materials Chemistry 18, 3442-3447(2008)
(116) “Highly efficient, deep-blue phosphorescent organic emitting diodes with a double-emitting layer structure”
H. Fukagawa, K. Watanabe, T. Tsuzuki, and S. Tokito
Applied Physics Letters 93, 133312(2008)
(115) “Energy-transfer dynamics of blue-phosphorescent iridium and rhodium complexes doped in fluorescent molecules”
I. Tanaka, K. Shibata, E. Tokunaga, and S. Tokito
Journal of the SID 16/6, 695-701(2008)
(114) “Development of Organic Electronic Devices Using Boronate Esters and Related Heterocycles”
T. Kojima, J. Noshida, S. Tokito, and Y. Yamashita
Chemistry Letters 37, 1122-1123(2008)
(113) “Preparation, Characterization, and Field-effect Transistor Performance of Benzo[1,2-d:4,5-d”]bisthiazole Derivatives”
M. Mamada, J. Nishida, S. Tokito, and Y. Yamashita
Chemistry Letters 37, 766-767(2008)
(112) “Synthesisi, Structure, and Transport Property of Perfluorinated Oligofluorenes”
K. Ohkubo, Y. Sakamoto, T. Suzuki, T. Tsuzuki, D. Kumaki, and S. Tokito
Chemistry‐A European Journal 14, 4472-4474(2008)
(111) “High air stability of threshold voltage on gate bias stress in pentacene TFTs with ahydroxy-free and amorphous fluoropolymer as gate insulators”
T. Umeda, D. Kumaki, and S. Tokito
Organic Electronics 9, 545-549(2008)
(110) “High-mobility bottom-contact thin-film transistor based on anthracene oligomer”
D. Kumaki, T. Umeda, T. Suzuki, and S. Tokito
Organic Electronics 9, 921-924 (2008)
(109) “Highly efficient phosphorescent organic light-emitting diodes using alkyl-substituted iridium complexes as a solution-processible host-material”
T. Tsuzuki, and S. Tokito
Applied Physics Express 1, 021805(2008)
(108) “Influence of H2O and O2 on threshold voltage shift in organic thin-film transistors: Deprotonation of SiOH on SiO2 gate-insulator surface”
D. Kumaki, T. Umeda, and S. Tokito
Applied Physics Letters 92, 093309 (2008)
(107) “Phosphorescent organic light-emitting devices: triplet energy management (review paper)”
S. Toktio, and I. Tanaka
Electrochemistry 76, 24-31(2008)
(106) “Reducing the contact resistance of bottom-contact pentacene thin-film transistors by employing a MoOx carrier injection layer”
D. Kumaki, T. Umeda, and S. Tokito
Applied Physics Letters 92, 013301 (2008)
(105) “n-Type organic filed-effect transistors with high-electron mobilities based on triazole-thiazolothiazole conjugated molecules”
M. Mamada, J. Nishida, D. Kumaki, S. Tokito, and Y. Yamashita
Chemistry of Materials 19, 5404-5409(2007)
(104) “Organic field-effect transistor based on heterocyclic co-oligomers containing a pyrazine ring”
T. Kojima, J. Nishida, S. Tokito, H. Tada, and Y. Yamashita
Chemical Communication, 1430-1432 (2007)
(103) "Flexible color LCD panel driven by low-voltage operation organic TFT"
Y. Fujisaki, H. Sato, T. Yamamoto, H. Fujikake, S. Tokito and T. Kurita
Journal of the Society for Information Display 15, 501-506 (2007)
(102) “High-mobility and air-stable organic thin-film transistors with highly ordered semiconducting polymer films”
T. Umeda, D. Kumaki, and S. Tokito
Journal of Applied Physics 101, 054517(2007)
(101) “Air stable, high performance pentacene thin-film transistor fabricated on SiO2 gate insulator treated with b-phnethyltrichlorosilane”
D. Kumaki, M. Yahiro, Y. Inoue, and S. Tokito
Applied Physics Letters 90, 133511 (2007)
(100) “有機ELを用いたフレキシブルディスプレイ”
時任静士
電子情報通信学会論文C, Vol.J90-C N.2, pp.110-115(2007)
(99) “High-performance and light-emitting n-type organic field effect transistors based on dithienylbenzothiadiazole and related heterocyles”
T. Kondo, D. Kumaki, J. Nishida, T. Sakanoue, M. Kakita, H. Tada, S. Tokito, and Y. Yamashita
Chemistry of Materials 19, 1218-1220(2007)
(98) “Highly-efficient and low-voltage phosphorescent organic light-emitting diodes that use an iridium complex as a host material”
T. Tsuzuki and S. Tokito
Advanced Materials 19, 276 (2007)
(97) “Synthesis, characterization and electroluminescence properties of new iridium complexes based on cyclic phenylvnylpyridine derivatives: tuning of emission colour and efficiency by structural control”
S. Takizawa, Y. Sasaki, M. Akhtaruzzaman, H. Echizen, J. Nishida, T. Iwata, S. Tokito and Y. Yamashita
Journal of Material Chemistry 17, 841-849(2007)
(96) “Synthesis, physical properties, and field-effect transistors of novel thiazolothiazole-phenylene co-oligomers”
S. Ando, D. Kumaki, J. Nishida, H. Tada, Y. Inoue, S. Tokito and Y. Yamashita
Journal of Material Chemistry 17, 553-558(2007)
(95) “Significant improvement of electron mobility in organic thin-film transistors based on thiazolothiazole derivative by employing self-assembled monolayer”
D. Kumaki, S. Ando, S. Shimono, Y. Yamashita, T. Umeda and S. Tokito
Applied Physics Letters 90, 053506(2007)
(93) ”ボトムコンタクト型有機TFTの特性改善とそれを用いたフレキシブル液晶表示パネルの試作”
藤崎好英、新井俊希、大竹浩、丸山裕孝、井上陽司、藤掛英夫、時任静士、栗田泰市郎
映像情報メディア学会誌、Vol.60,No.9, pp.1428-1434(2006)
(92) “Flexible Active Matrix OLED Panel Driven by Bottom Contact Organic Thin Film Transistors”
M. Mizukami, N. Hirohata, T. Iseki, K. Ohtawara, T. Tada, S. Yagyu, and Abe, T. Suzuki, Y. Fujisaki, Y. Inoue, S. Tokito, and T. Kurita
IEEE Electron Device Letters 27, 4, 249-251 (2006)
(91) “Efficient organic light-emitting devices using an iridium complex as a phosphorescent host and a platinum complex as a red phosphorescent guest”
T. Tsuzuki, Y. Nakayama, J. Nakamura, T. Iwata, and S. Tokito
Applied Physics Letters 88, 243511 (2006)
(90) “Phosphorescence color tunable iridium complexes with ligands of 2-phenylimidazo[1,2-a]pyridine derivatives”
S. Takizawa, J. Nishida, T. Tsuzuki, Y. Yamashita, T. Tsuzuki, and S. Tokito
Molecular Crystals and Liquid Crystals 455, 381-385(2006)
(89) “Finely-tuned Blue-phosphorescent Iridium Complexes Based on 2-Phenylpyridine Derivatives and Application to Polymer Organic Light-emitting Devices”
S. Takizawa, H. Echizen, J. Nishida, T. Tsuzuki, S. Tokito and Y. Yamashita
Chemistry Letters 35, 748-749 (2006)
(88) “Forster and Dexter energy-transfer processes in fluorescent BAlq thin films doped with phosphorescent Ir(ppy)3 molecules”
I. Tanaka, Y. Tabata and S. Tokito
Journal of Applied Physics 99, 073501(2006)
(87) “Perfluoropentacene and perfluorotetracene: Syntheses, crystal structures, and FET characteristic”
Y. Sakamoto, T. Suzuki, M. Kobayashi, Y. Gao, Y. Inoue, and S. Tokito
Molecular Crystals and Liquid Crystals 444, 225-232(2006)
(86) “High Performance n-and p-type Field-Effect Transistors Based on Tetrathiafulvalene Derivatives”
Naraso, J. Nishida, D. Kumaki, S. Tokito and Y. Yamashita
Journal of the American Chemical Society 128, 9598-9599(2006)
(85) “Physical properties and field-effect transistors based on novel thiazolothiazole/heterocyclic and thiazolothiazole/phenylene co-oligomers”
S. Ando, J. Nishida, E. Fujiwara, H. Tada, Y. Inoue, S. Tokito, Y. Yamashita
Synthetic Metals 156, 327-331(2006)
(84) “High-Performance Organic Field-Effect Transistors Based on π-Extended Tetrathiafulvalene Derivatives”
Naraso, J. Nishida, S. Ando, J. Yamaguchi, K. Itaka, H. Koinuma, H. Tada, S. Tokito, and Y. Yamashita
Journal of the American Chemical Society 127, 10142- 1043(2005)
(83) “Temperature-dependence carrier-transport and light-emission processes in a phosphorescent organic light-emitting device”
I. Tanaka and S. Tokito
Applied Physics Letters 87, 173509(2005)
(82) “High performance n-Type Organic Field-Effect Transistors Based on p-Electron Systems with Trifluoromethylphenyl Group”
S. Ando, J. Nishida, H. Tada, Y. Inoue, S. Tokito, and Y. Yamashita
Journal of the American Chemical Society 127, 5336- 5337(2005)
(81) “Organic Thin-Film Transistors with High Electron Mobility Based on Perfluoropentacene”
Y. Inoue, Y. Sakamoto, T. Suzuki, M. Kobayashi, Y. Gao, and S. Tokito
Japanese Journal of Applied Physics. 44, 3663-3668(2005)
(80) “n-Type organic Field-Effect Transistors with very High Electron Mobility Based on Thiazole Oligomers with Trifluoromethylphenyl Group”
S. Ando, R. Murakami, J. Nishida, H. Tada, Y. Inoue, S. Tokito, and Y. Yamashita
Journal of the American Chemical Society 127, 14996-14997(2005)
(79) “Organic light-emitting diodes using multi- functional phosphorescent dendrimers with an iridium-complex core and charge-transporting dendrons”
T. Tsuzuki, N. Shirasawa, T. Suzuki, and S. Tokito
Japanese Journal of Applied Physics 44, 4151-4154(2005)
(78) “Phosphorescent-sensitized triplet-triplet annihilation in tris(8-hydroxy- quinoline) aluminum”
I. Tanaka and S. Tokito
Journal of Applied Physics 97, 113532(2005)
(77) “Syntheses and characteriszation of novel iridium complexes with ligands of 2-phenylimidazo[1,2-a]pyridine derivatives and application to organic light-emitting diode”
S. Takizawa, J. Nishida, T. Tsuzuki, S. Tokito, and Y. Yamashita
Chemistry Letters 34, 1222-1223(2005)
(76) “Observation of phosphorescence from tris(8-hydroxyquinoline) aluminum thin films using triplet energy transfer from iridium complexes”
I. Tanaka, Y. Tabata, and S. Tokito
Physical Review B 71, 205207 (2005)
(75) “Highly efficient polymer light-emitting devices using ambipolar phosphorescent polymers”
M. Suzuki, S. Tokito, T. Igarashi, K. Kondo, T. Koyama, and T. Yamaguchi
Applied Physics Letters 86, 103507(2005)
(74) “Novel p-and n-Type Organic Semiconductors with an Anthracene Unit”
S. Ando, J. Nishida, E. Fujiwara, H. Tada, Y. Inoue, S. Tokito, Y. Yamashita
Chemistry Materials 17, 1261(2005)
(73) “High-efficiency blue and white phosphorescent organic light-emitting devices”
S. Tokito, T. Tsuzuki, F. Sato, and T. Iijima
Current Applied Physics 5, 331-336(2005)
(72) “Characterization and Field-Efect Transistor Performance of Heterocyclic Oligomers Containing a Thiazolothiazole Unit”
S. Ando, J. Nishida, E. Fujiwara, H. Tada, Y. Inoue, S. Tokito, Y. Yamashita
Chemistry Letters 33, 1170-1171 (2004)
(71) “Perfluoropentacene: High-Performance p-n Junctions and Complementary Circuits with Pentacene”
Y. Sakamoto, T. Suzuki, M. Kobayashi, Y. Guao, Y. Fukai, Y. Inoue, F. Sata, S. Tokito
Journal of the American Chemical Society 126 , 8138(2004)
(70) “Synthesis, physical properties, and field-effect transistors of novel thiophene/thiazolothiazole co-oligomers”
S. Ando, J. Nishida, E. Fujiwara, H. Tada, Y. Inoue, S. Tokito, Y. Yamashita
Journal of Materials Chemistry 14, 1787-1790(2004)
(69) “Organic Thin Film Transistors Based on Anthracene Origomers”
Y. Inoue, S. Tokito, K. Ito, T. Suzuki
Journal of Applied Physics 95, 5795-5799(2004)
(68) “Improvement of Characteristics of Organic Thin-Film Transistor with Anodized Gate Insulator by an Electrolyte Solution and Low-Voltage Driving of Liquid Crystal by Organic Thin-Film Transistors”
Y. Fujisaki, Y. Inoue, T. Kurita, S. Tokito, H. Fujikake, H. Kikuchi
Japanese Journal of Applied Physics 43, 372-377 (2004)
(67) “High-efficiency White Phosphorescent Polymer Light-Emitting Devices”
M. Suzuki, T. Hatakeyama, S. Tokito, and F. Sato
IEEE Journal of Selected Topics in Quantum Electronics 10, 115-120(2004)
(66) “Comparison of phosphorescence properties of green-emitting Ir(ppy)3 and red-emitting Btp2Ir(acac)”
I. Tanaka, Y. Tabata and S. Tokito
Japanese Journal of Applied Physics 43, L1601-L1603(2004)
(65)“Energy-transfer and light-emission mechanism of blue phospho- rescent molecules in guest-host systems”
I. Tanaka, Y. Tabata and S. Tokito
Chemical Physics Letters 400, 86- 89(2004)
(64) “Precise measurement of external quantum efficiency of organic light-emitting devices”
I. Tanaka and S. Tokito
Japanese Journal of Applied Physics 43, 7733-7736(2004)
(63) “Highly-efficiency phosphorescent Polymer light-emitting devices”
S. Tokito, M. Suzuki, F. Sato, M. Kamachi, K. Shirane
Organic Electronics 4, 105-111(2003)
(62)“Color tunable organic light-emitting diodes using pentafluorophenyl-substituted iridium complexes”
T. Tsuzuki, N. Shirasawa, T. Suzuki and S. Tokito
Advanced Materials 15, 1455-1458(2003)
(61) “Confinement of triplet energy on phosphorescent molecules for highly-efficient organic blue-light-emitting devices”
S. Tokito, T. Iijima, Y. Suzuri, H. Kita, T. Tsuzuki and F. Sato
Applied Physics Letters 83, 569-571(2003)
(60) “Oligo(2,6-Anthrylene)s: Acene-Oligomer Approach for Organic Field-Effect Transistors”
Ito, T. Suzuki, Y. Sakamoto, D. Kubota, Y. Inoue, F. Sato, S. Tokito
Angewante Chemie- International Edition 42, 1159-1162(2003)
(59)“Improvement of emission efficiency in polymer light-emitting devices based on phosphorescent polymers”
S. Tokito, M. Suzuki, and F. Sato
Thin Solid Films 445, 353-357(2003)
(58)“Organic Thin-Film Transistors on a Plastic Substrate with Anodically Oxidized High-Dielectric- Constant Insulators”
Y. Iino, Y. Inoue, Y. Fujisaki, H. Fujikake, H. Sato, M. Kawakita, S. Tokito, H. Kikuchi
Japanese Journal of Applied Physics 42, 299-304 (2003)
(57) “White light emission from polymer electrophosphorescent light-emitting devices doped with iridium complexes”
I. Tanaka, M. Suzuki and S. Tokito
Japanese Journal of Applied Physics 42, 2737-2740(2003)
(56) “High-efficiency white phosphorescent organic light-emitting devices with greenish-blue and red emitting layers”
S. Tokito, T. Iijima, T. Tsuzuki, and F. Sato
Applied Physics Letters 83, 2459-2461(2003)
(55) “Perfluoro-1,3,5-tris(p-oligophenyl) -benzenes: Amorphous Electron-Transport Materials with High-Glass-Transition Temperature and High Electron Mobility”
S. Komatsu, Y. Sakamoto, T. Suzuki, and S. Tokito
Journal of Solid State Chemistry 168, 470-473(2002)
(54) “Highly efficient phosphorescence from organic light-emitting devices with an exciton-block layer”
M. Ikai, S. Tokito, Y. Sakamoto, T. Suzuki, and Y. Taga
Applied Physics Letters 79, 156-158(2001)
(53) “Analysis of Dark Spots Growing in Organic EL Devices by Time-of-Flight Secondary Ion Mass Spectrometry”
A. Murase, M. Ishii, S. Tokito, and Y. Taga
Analytical Chemistry 73, 2245-2254(2001)
(52) “Material Developments and Light Control in Organic Light-Emitting Diodes”
S. Tokito and Y. Taga
Molecular Crystals and Liquid Crystals 349, 389-394(2000)
(51)“Perfluorinated Oligo(p-Phenylene)s: Efficient n-Type Semiconductors for Organic Light-Emitting Diodes”
S. B. Heidenhain, Y. Sakamoto, T. Suzuki, A. Miura, . Fujikawa, T. Mori, S. Tokito, and Y. Taga
Journal of the American Chemical Society 122, 10240-10241(2000)
(50) “Highly efficient blue-green emission from organic light-emitting diodes using bibenzochrosene derivatives”
S. Tokito, K. Noda, H. Fujikawa, Y. Taga, M. Kimura, K. Shimada and Y. Sawaki
Applied Physics Letters 77, 160-162(2000)
(49) “Highly efficient pure blue electro- luminescence from polyfluorene : Influence of the molecular weight distribution on the aggregation tendency”
K.-H. Weinfurtner, H. Fujikawa, S. Tokito, and Y. Taga
Applied Physics Letters 76, 2502-2504(2000)
(48) “Synthesis, Characterization, and Electron-Transport Property of Perfluorinated Phenylene Dendrimers”
Y. Sakamoto, T. Suzuki, A. Miura, H. Fujikawa, S. Tokito, and Y. Taga
Journal of the American Chemical Society 122, 1832-1833(2000)
(47) “Spirocycle-Incorporated Triphenylamine Derivatives as an Advanced Organic Electroluminescent Material”
M. Kimura, S. Inoue, K. Shimada, S. Tokito, K. Noda, Y. Taga, and Y. Sawaki
Chemistry Letters 192-193(2000)
(46) “Influence of Hole Transporting Materials on Device Performance in Organic Light-emitting Diode”
S. Tokito, K. Noda, K. Shmada, S. Inoue, M. Makoto, Y. Sawaki and Y. Taga
Thin Solid Films 363, 290-293(2000)
(45) “Organic electroluminescent devices using alkaline-earth fluorides as an electron injection layer”
H. Fujikawa,, T. Mori, M. Ishii, S. Tokito, and Y. Taga
Journal of Luminescence 87-89, 1177-1179(2000)
(44) “Improvement of organic EL device performance by in-situ plasma treatment of ITO substrate”
M. Ishii, T. Mori, H. Fujikawa, S. Tokito, and Y. Taga
Journal of Luminescence 87-89, 1165-1167(2000)
(43) “Microcavity organic light-emitting diodes for strongly directed pure red, green, and blue emissions”
S. Tokito, T. Tsutsui and Y. Taga
Journal of Applied Physics 86, 2407-2411(1999)
(42) “Electronic structure of 8-hydroxyquinoline aluminum/LiF/Al interface for organic electroluminescent device studied by ultraviolet photoelectron spectroscopy”
T. Mori, H. Fujikawa, S. Tokito, and Y. Taga
Applied Physics Letters 73, 2763-2765(1998)
(41) “Novel metal-chelate emitting materials based on polycyclic aromatic ligands for electroluminescent devices”
H. Tanaka, S. Tokito, Y. Taga, and A. Okada
Journal of Materials Chemistry 8, 1999-2003(1998)
(40) “Strongly modified emission from organic electroluminescent device with a microcavity”
S. Tokito, T. Tsutsui, and Y. Taga
Synthetic Metals 91, 49-52(1997)
(39) “Energy structures of triphenylamine oligomers”
H. Fujikawa, S. Tokito, and Y. Taga
Synthetic Metals 91, 161-162(1997)
(38) “Thermal stability of organic electroluminescent devices fabricated using novel charge-transporting materials”
S. Tokito, H. Tanaka, K. Noda, A. Okada, and Y. Taga
Macromolecular Symposia 125, 181-188(1997)
(37) “Nonplanar and branched electron transporting molecules for organic EL device”
H. Tanaka, S. Tokito, Y. Taga, and A. Okada
Molecular Crystals and Liquid Crystals 294, 337-340(1997)
(36) “Temperature dependences of electroluminescent characteristics in the devices fabricated with novel triphenylamine derivatives”
S. Tokito, H. Tanaka, K. Noda, A. Okada, and Y. Taga
IEEE Transaction, Electron Devices 44, 1239-1244(1997)
(35) “Thermal stability in oligomeric triphenyl- amine/tris(8-quinolinolato) aluminum electro- luminescent devices”
S. Tokito, H. Tanaka, K. Noda, A. Okada, and Y. Taga
Applied Physics Letters 70, 1929-1931(1997)
(34) “Electrical properties of Ta-Sn-O films on indium tin oxide electrodes”
H. Fujikawa, K. Noda , S. Tokito and Y. Taga
Applied Physics Letters 70, 270-272(1997)
(33) “Electrical properties of Ta-Sn-O films on indium tin oxide electrodes”
H. Fujikawa, K. Noda , S. Tokito and Y. Taga
Applied Surface Science 114, 714-717(1997)
(32) “High-temperature operation of an electroluminescent device fabricated using a novel triphenylamine derivative”
S. Tokito, H. Tanaka, A. Okada, and Y. Taga
Applied Physics Letters 69, 878-880(1996)
(31) “Novel hole-transporting materials based on triphenylamine for organic electroluminescent devices”
H. Tanaka, S. Tokito, Y. Taga, and A. Okada
Chemical Communications, 2175-2176(1996)
(30) “High performance organic electroluminescent diodes with microcavities”
S. Tokito, and K. Noda, and Y. Taga
Electron Letters 32, 691-692(1996)
(29) “Strongly directed single mode emission from organic electro- luminescent diode with a microcavity”
S. Tokito, K. Noda, and Y. Taga
Applied Physics Letters 68, 2633-2635(1996)
(28) “Metal oxides as a hole-injecting layer for an organic electroluminescent device”
S. Tokito, K. Noda, and Y. Taga
Journal of Physics D: Applied Physics 29, 2750-2753(1996)
(27) “Organic electroluminescent devices fabricated using a diamine doped MgF2 thin film as a hole-transporting layer”
S. Tokito, J. Sakata and Y. Taga
Applied Physics Letters 66, 673-675(1995)
(26) “Organic/Inorganic Superlattices with Ordered Organic Layers”
S. Tokito, J. Sakata and Y. Taga
Journal of Applied Physics 77, 1985-1989(1995)
(25) “The Molecular Orientation in Copper Phthalocyanine Thin Films Deposited on Metal Film Surfaces”
S. Tokito, J. Sakata and Y. Taga
Thin Solid Films 256, 182-185(1995)
(24) “Structures and Optical Properties of Organic/Inorganic Superlattices”
S. Tokito, J. Sakata and Y. Taga
Applied Physics Letters 64, 1353-1355(1994)
(23) “Electronic Structure of Poly(p-phenylenevinylene) and Poly(2,5-thienylene- vinylene)”
E. Pellegrin and J. Fink, H. F. Martens and D. D. C. Bradley, H. Murata, S. Tokito, T. Tsutsui and S. Saito
Synthetic Metals 41-43, 1353-1357(1991)
(22) “Highly conductive and stiff fibers of poly(2,5-dimethoxy-p- phenylenevinylene) prepared from soluble precursor polymer”
S. Tokito, P. Smith and A. J. Heeger
Polymer 32, 464-470(1991)
(21) “Highly Oriented Polyarylenevinylene thin Films”
T. Tsutsui, H. Murata, T. Momii, K. Yoshiura, S. Tokito and S. Saito
Synthetic Metals 41-43, 327-330(1991)
(20)“Optical excitaions in poly(2,5-thienylene vinylene)”
J. Brassett, N. F. Colaneri, D. D. C. Bradley, R. A. Lawrence and R. H. Friend, H. Murata, S. Tokito, T. Tsutsui and S. Saito
Physical Review B, 41, 10586-10594(1990)
(19)“Mechanical and Electrical Properties of Poly(2,5-thienylene vinylene) Fibers”
S. Tokito, P. Smith and A. J. Heeger
Synthetic Metals 36, 183-194(1990)
(18) “Preparation of High-quality Poly(2,5-thienylene vinylene) Films,”
H. Murata, S. Tokito, T. Tsutsui and S. Saito
Synthetic Metals 36, 95-102(1990)
(17) “Polyarylenevinylene films prepared from precursor polymers soluble in organic solvents”
S. Tokito, T. Momii, H. Murata, T. Tsutsui and S. Saito
Polymers 31, 1137-1142(1990)
(16) “Optical third-harmonic generation from poly-(2,5-dimethoxy p-phenylene-vinylene) thin film”
T. Kaino, H. Kobayashi, K.-I. Kubodera and T. Kurihara, S. Saito, T. Tsutsui and S. Tokito
Applied Physics Letters 54, 1619-1621(1989)
(15) “Preparation of Highly Oriented Polyarylenevinylene Thin Films by The Lagmuir-Blodgett Technique”
M. Era, K. Kamiyama, K. Yoshiura, T. Momii, H. Murata, S. Tokito, T. Tsutsui and S. Saito
Thin Solid Films 179, 1-8(1989)
(14) “Organic Electroluminescent Device with a Three-Layer Structure”
C. Adachi, S. Tokito, T. Tsutsui and S. Saito
Japanese Journal of Applied Physics 27, L713-L715(1988)
(13) “Electroluminescence in Organic Films with Three-Layer Structure”
C. Adachi, S. Tokito, T. Tsutsui and S. Saito
Japanese Journal of Applied Physics 27, L269-L271(1988)
(12) “Optical third-harmonic generation from poly(2,5-thienylene vinylene) thin films”
T. Kaino, K.-I. Kubodera, H. Kobayashi, T. Kurihara, S. Saito, T. Tsutsui, S. Tokito, H. Murata
Applied Physics Letters 53, 2002-2004(1988)
(11) “Appearance of Metallic Reflectance due to Conversion from Precursor Polymer to Poly(2,5-thienylenevinylene)”
S. Toktio, H. Murata, T. Tsutsui and S. Saito
Japanese Journal of Applied Physics 27, L1726-L1727(1988)
(10) “Preparation of Highly Oriented poly(p-phenylenevinylene) Thin Film by Using Langmuir- Blodgett Technique”
M. Era, H. Shinozaki, S. Tokito, T. Tsutsui and S. Sait
Chemistry Letters, 1097-1100(1988)
(9) “Synthesis of Poly(2,5-dimethoxy-p- phenylenevinylene) Film through a New Precursor Polymer”
T. Momii, S. Tokito, T. Tsutsui and S. Saito
Chemistry Letters 1201-1204(1988)
(8) “Optical Third-Harmonic Generation from Poly(p-phenylenevinylene) Films”
T. Kaino, K.-I.Kubodera, S. Tomaru, T. Kurihara , S. Saito, T. Tsutsui and S. Tokito
Electron Letters 23, 1095-1097(1987)
(7) “New Conducting Polymer Film: Poly(2,5-thienylenevinylene) prepared via a Soluble Precursor Polymer”
S. Yamada, S. Tokito, T. Tsutsui and S. Saito
Journal of the Chemical Society, Chemical Communications 1448-1449(1987)
(6) “Photoconduction of Poly(p-phenylenevinylene) Films”
S. Tokito, T. Tsutsui, R. Tanaka and S. Saito
Japanese Journal of Applied Physics, 25, L680-L681(1986)
(5) “Optical and Electrical Properties of Pristine Poly(p-phenylenevinylene) Film”
S. Tokito, T. Tsutsui, S. Saito and R. Tanaka
Polymer Communications 27, 333-335(1986)
(4) “Changes in Transmittance and Fluorescence Spectra during Preparation of Poly- (p-phenylenevinylene) through Elimination Reaction of Poly(p-xylylene-α-diethyl-sulfonium Bromide)”
S. Tokito, S. Saito and R. Tanaka
Makromolecular Chemie-Rapid Communication 7, 557-562 (1986)
(3) “Electrical Conductivity and Optical Properties of Poly(p-phenylene sulfide) Doped with Some Organic Acceptors”
S. Tokito, T. Tsutsui and S. Saito
Polymer Journal, 17, 959-968(1985)
(2) “Electron Transport in Doped and Undoped Polymers Containing π-Conjugated Groups”
S. Saito, T. Tsutsui, S. Tokito, T. Hara and H.-T.Chiu
Polymer Journal, 17, 209-216(1985)
(1) “Morphology and Conductivity of Polypyrrole Containing Halogen Counter Anions”
S. Tokito, T, Tsutsui and S. Saito
Chemistry Letters, 531-534(1985)

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(81) “フレキシブルハイブリット型常時計測体温センサの開発”
芝健夫, 横澤晃二, 松井弘之, 時任静士
バイオインダストリー, 5月号(vol.34 No.5), pp21-29 (2017)
(80) “有機トランジスタを用いたバイオセンサー応用”
古澤宏幸,時任静士
工業材料, 2月号(Vol.65 No.2), pp35-37 (2017)
(79) “印刷法による有機CMOS集積回路”
松井弘之,時任静士
工業材料, 2月号(Vol.65 No.2), pp32-34 (2017)
(78) “銀ナノ粒子インクの開発と有機トランジスタへの応用”
熊木大介, 時任静士
工業材料, 2月号(Vol.65 No.2), pp29-31 (2017)
(77) “有機トランジスタ部門の研究概要”
時任静士
工業材料, 2月号(Vol.65 No.2), pp26-28 (2017)
(76) “スマート有機FET型センサが拓く未来社会”
時任静士
化学経済, 3月号, pp10-16(2016)
(75) “Developments of Flexible Printed Organic FET Biosensors”
Shizuo Tokito, Tsukuru Minamiki, and Tsuyoshi Minami
Journal of the Imaging Society of Japan,Vol.55 No.1, pp64-75(2016)
(74) “Development of Omnidirectional Inkjet (OIJ) Printing Technology Using a Vertically Articulated Robot”
Yasunori Yoshida, Konami Izumi, and Shizuo Tokito
Convertech & e-Print, January / February 2016, pp75-79 (2016)
(73) “Soft Blanket Gravure (SBG) Printing Technology for Fine Electronic Interconnect Layers for Three-Dimensional Curved Surfaces”
Konami Izumi, Yasunori Yoshida, and Shizuo Tokito
Convertech & e-Print, January / February 2016, pp70-74 (2016)
(72) “ソフトブランケットを用いた3次元曲面への微細配線印刷技術”
泉小波、吉田泰則、時任静士
コンバーテック, 11_No.512, pp38-42(2015)
(71) “垂直多関節ロボットを用いた全方向インクジェット(OIJ)印刷技術の開発”
吉田泰則、泉小波、時任静士
コンバーテック, 11_No.512, pp34-37(2015)
(70) “Printed Organic Thin-Film Transistors”
福田憲二郎、時任静士
Organic Electronics Materials and Devices, pp139-154 (2015)
(69) “有機トランジスタ構造を用いたバイオセンサと化学センサの基盤研究”
南 豪、南木創、時任静士
Chemical Sensors, 30, 139-148. (2014)
(68)“印刷法による有機トランジスタ作製とフレキシブル有機集積回路応用”
福田憲二郎、時任静士
クリーンテクノロジー Vol.24, No.10, pp46-50 (2014).
(67)“プリンテッド有機エレクトロニクスの最新動向”
時任静士、福田憲二郎、熊木大介
化学工業 vol.65, No.10, pp58-76 (2014).
(66)“インクジェット銀ナノ粒子電極を使った有機TFTのコンタクト抵抗解析”
熊木大介、時任静士
有機分子・バイオエレクトロニクス分科会誌 vol.25, No.2, pp153 (2014)
(65)“フレキシブル有機センサーに向けた微細印刷配線の技術開発”
熊木大介、時任静士
コンバーテック 2014年7月号 pp79 (2014).
(64)“インクジェット印刷による有機トランジスタの作成と高性能化”
福田憲二郎、時任静士
日本写真学会誌 第77巻第2号、pp71-75 (2014).
(63) “総論:有機ELディスプレイ”
時任静士
映像情報メディア学会誌 2013 12月号、pp13-15 (2013)
(62) “銀ナノ粒子インクを用いた印刷銀電極の密着力と曲げ応用耐性”
関根智仁、福田憲二郎、熊木大介、時任静士
コンバーテック、484、pp88-91 (2013).
(61) “有機TFTで駆動するフレキシブル有機ELディスプレイ”
奥慎也、水上誠、、時任静士
電気化学および工業物理化学 (Electrochemistry), Vol.81, No.6, pp478-483 (2013).
(60) “印刷プロセスを用いたフレキシブル集積回路の実現”
福田憲二郎、時任静士
WEB Journal 2013,No.138, pp6-9 (2013).
(59) “フレキシブル有機ELディスプレイ”
水上誠、時任静士
OplusE1,Vol.35-4, No.401,pp367-372(2013).
(58) “有機ELの現状と展望”
時任静士
固体物理1,Vol.48(1)2013, No.563,pp23-31(2013).
(57) “高分子半導体を用いた薄膜トランジスターの基礎物性”
時任静士、熊木大介
日本液晶学会誌、vol.17, No. 1, pp40-46(2013)
(56) “有機薄膜トランジスタの周辺技術と応用”
熊木大介、時任静士
PETROTECH, January 2013, Vol. 36 No.1, 公益社団法人 石油学会, 35-39(2013).
(55) “フレキシブル有機ELディスプレイ”
時任静士
科学と教育、シリーズ 教科書から一歩進んだ身近な製品の科学、日本化学会、Vol.60,No.4,(2012).
(54) “印刷プロセスによるフレキシブルトランジスタの実現”
福田憲二郎、時任静士
日本機械学会誌, 115, 463-466 (2012).
(53) “共役系高分子の高次構造制御と薄膜トランジスタへの応用”
熊木大介、時任静士
未来材料, vol.12, No.6, pp2-7 (2012).
(52) “酸化モリブデンを用いた塗布型電荷注入層による高分子TFTの高性能化”
熊木大介、時任静士、
M&BE Vol.22 No.4 (2011).
(51) “有機デバイス・材料の耐久性向上および長寿命化技術”
熊木大介、時任静士
情報機構 第3章1節 (2011).
(50)“フレキシブルエレクトロニクスへの期待”
時任静士
OPTRONICS, 30, 353, 80-82 (2011)
(49)“液晶性高分子半導体を用いた高分子薄膜トランジスタの高性能化”
熊木大介、時任静士
ケミカルエンジニヤリング、vol.56、no.2、p.76
(48)“液晶性高分子半導体を用いた高性能高分子薄膜トランジスタ”
熊木大介、時任静士
日本液晶学会誌、vol.16、no.31
(47)“有機TFTで駆動するフレキシブル有機ELディスプレイ”
時任静士
有機エレクトロニクス2010、p.58
(46)“フレキシブル有機ELディスプレイの研究動向”
時任静士
NHK技研R&D、No.120 pp.4-13(2010).
(45)“有機発光素子における界面の問題”
時任静士
JOURNAL OF THE VACUUM SOCIETY OF JAPAN(真空)、Vol.53, No.1, pp.8-12(2010).
(44)“有機TFT駆動によるフレキシブル有機ELディスプレイ”
中嶋宜樹、山本敏裕、時任静士
光技術コンタクト、Vol.48, No.2, pp.28-11(2010).
(43)“有機EL素子の基礎”
時任静士
未来材料、Vol.9, No.6, pp.2-8(2009).
(42)“日本放送協会放送技術研究所 材料・デバイス有機フォトニクス材料研究グループ”
時任静士
真空ジャーナル、No.125, pp.20-21(2009).
(41)“フレキシブル有機ELディスプレイの開発”
時任静士
グリーンテクノロジー、Vol.19, No.8, pp.16-20(2009).
(40)“フレキシブル有機ELディスプレイ”
時任静士
日本印刷学会誌、Vol.44, No.5, pp.22-26(2007).
(39)“有機ELディスプレイの開発動向”
時任静士
電気学会誌、127巻、12号、pp.794-797 (2007).
(38)“シランカップリング剤を用いたゲート絶縁膜表面処理による有機薄膜トランジスタの高性能化”
熊木大介、時任静士
MATERIAL STAGE, Vol.7, No.4, pp.13-16(2007).
(37)“有機EL素子のディスプレイへの応用”
時任静士
ウエブ・ジャーナル、No.85, pp.11-14(2007).
(36)“有機薄膜トランジスタにおける表面・界面の制御”
時任静士、熊木大介
表面科学、Vol.28, No.5, pp.242-248(2007).
(35)“有機薄膜トランジスタへの展開“
時任静士
化学と教育、Vol.55, No.1, pp.12-15(2007).
(34)“有機TFT駆動によるフレキシブル有機ELディスプレイ”
中嶋宜樹、武井達哉、山本敏裕、時任静士
月刊オプトロニクス、No. 299、11月号、pp.148-152 (2006).
(33)“湾曲状態で発光する有機TFT駆動「有機ELパネル」”
山本敏裕、時任静士
OHM、オーム社、12月号、pp.28-29 (2006).
(32)“丸められるテレビを目指して”
時任静士
中部支部報、自動車技術会中部支部, pp.26-29(2006).
(31)“有機ELデバイスの動作機構と発光効率改善”
時任静士
日本写真学会誌, 第69巻、5号、pp.315-319(2006)
(30)“フレキシブル有機ELディスプレイ”
時任静士
画像ラボ、Vol.17, No.6, pp.6-10(2006).
(29)“白色有機EL素子の開発と放送用照明への応用”
田中功、時任静士
斉藤信一、牟田光冶、放送技術、Vol.7, pp.71-75(2006)
(28)“丸めて持ち運べる有機ELディスプレイの実現を目指して”
時任静士
Polyfile, Vol.43, No.505, pp.17-21(2006).
(27)“有機ELを利用した放送用照明装置の開発”
田中功、時任静士、斉藤信一、三田泰哉、牟田光冶
マテリアルライフ学会誌、Vol.18, No.4, pp.159-164(2006).
(26)“有機EL材料の現状と将来動向”
都築俊満、時任静士
光技術コンタクト、(社)日本オプトメカトロニクス協会、Vol.43, pp.3-10 (2005).
(25)“有機ELを利用したキャスターライトの開発と放送現場での実用化”
田中功、 時任静士、斉藤 信一、牟田 光治
照明学会誌、第89巻, 12月号, p. 828 (2005).
(24)“フレキシブル有機ELディスプレイ”
時任静士
映像情報メディア学会誌、Vol.59, No.9, p.1274(2005).
(23)“フレキシブルカラー有機ELディスプレイの開発”
鈴木充典、時任静士
月刊ディスプレイ、テクノタイムズ社、第11巻、6月号、p.16(2005).
(22)“フレキシブル有機ELディスプレイ”
時任静士
化学と工業、第58巻、第7号、pp.835-837(2005).
(21)“りん光発光する高分子EL材料”
時任静士、鈴木充典
高分子、第54巻、5月号、p.313(2005).
(20)“有ELディスプレイの最新技術動向”
時任静士
電子ディスプレイ技術(電子材料5月号別冊)、pp.34-40(2005).
(19)“有機ELディスプレイ”
都築俊満、時任静士
化学工業、第55巻、第6号、pp.13-20(2004).
(18) “フレキシブル有機ELディスプレイ用有機TFT技術”
井上陽司、時任静士
機能材料、Vol.24, no.3, pp.26-32(2004)
(17)“ビギナーのための有機EL講座”
時任静士
工業材料、Vol.43, No.12, p.73(2004).
(16)“有機ELディスプレイ”
時任静士
液晶、第8巻、第1号、pp.8-17(2004).
(15) “有機ELディスプレイの現状と展望”
時任静士
東レリサーチセンターTHE TRC NEWS, No.86, p.1(2004).
(14) “有機TFT研究の現状と課題”
井上陽司、時任静士
O plus E、Vol.25, no.3, pp.280-285(2003)
(13)“有機ELディスプレイの将来を語る”
時任静士
月刊ディスプレイ、テクノタイムズ社、第9巻、9月号、p.1(2003).
(12)“Development of Phosphorescent Polymer EL Devices”
S. Tokito
New Breeze, No.2, p.10(2003).
(11)“有機EL素子の基礎と応用“
時任静士
画像電子学会誌、第32巻、第4号,p.514(2003).
(10) “Phosphorescent-Polymer OLEDs”
S. Tokito, M. Suzuki and F. Sato
Information Display, Vol.19, No.6, p.22(2003).
(9) “フレキシブルカラー高分子有機ELディスプレイ”
時任静士、鈴木充典、都築俊満、井上陽司
光学、32巻、12号、pp.716-718(2003).
(8) “有機ELディスプレイの開発動向”
時任静士
成形加工、第15巻、第3号、p.88(2003).
(7) “有機TFT研究の現状と課題”
井上陽司、時任静士
O plus E、3月号、pp.280-285(2003).
(6) “有機EL素子の基礎と応用”
時任静士
映像情報メディア学会誌、Vol.56, No.8, p.1233 (2002).
(5) “レーザー材料として見た有機材料”
時任静士
レーザー研究、Vol.30, No.6, p.303(2002).
(4) “有機EL素子における発光特性の制御”
時任静士
月刊ディスプレイ、テクノタイムズ社、第7巻、9月号、p.13 (2001).
(3) “微小光共振器による有機EL素子の発光特性制御“
時任静士、野田浩二、多賀康訓
光アライアンス、日本工業出版、Vol.10, p.36 (1999).
(2) “プロジェクター向け光源に使える可能性が出てきた有機EL”
時任静士、野田浩二、多賀康訓
フラットパネルディスプレイ’99、日経BP社、p.216(1998).
(1) “新規金属錯体を用いた有機EL素子”
時任静士、田中洋充、多賀康訓
月刊ディスプレイ、テクノタイムズ社、4月号、pp.47-50 (1998).

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(28)“デバイス性能向上に貢献する機能性材料”
竹田泰典、時任静士
第3章 第4項, ウェアラブルセンシング最新動向~電源・材料の開発から医療ヘルスケア分野への応用および次世代センシング技術~, pp.81-88, 情報機構(2016)
(27)“印刷電極の密着性技術とフレキシブル有機トランジスタの応用”
関根智仁、熊木大介、時任静士
第3編 第7章 第2節, 表面・界面技術ハンドブック―材料創製・分析・評価の最新技術から先端産業への適用、環境配慮まで―, pp589-593, エヌ・ティー・エス(2016)
(26)“有機トランジスタ型化学センサの開発動向”
南豪、南木創、時任静士
第5章 第4節, ヘルスケアを支えるバイオ計測, シーエムシー出版(2016)
(25)“Printed Organic Thin-Film Transistors”
福田憲二郎、時任静士
Organic Electronics Materials and Devices, SPRINGER社, pp 139-154 (2015)
(24) ”フレキシブル有機ELディスプレイの基盤技術と最新技術動向”
時任静士
ディスプレイ技術年鑑 2014、第2章、2-3-3 生産革新、日経BP社(2013)
(23) “有機エレクトロニクス2012-2013 離陸するプリンテッド・エレクトロニクス 第2章デバイス・プロセス技術 トランジスタ「塗布型TFTとフレキシブル・デバイス応用」”
時任静士
日経BP社, 58-75(2012)
(22)“有機デバイスのための塗布技術”
水上誠、時任静士
第5章フレキシブル有機デバイス作製技術, 5「有機トランジスタのフレキシブルディスプレイへの応用」, 175-183, シーエムシー出版 (2012.4.2)
(21) “有機TFTで駆動するフレキシブル有機ELディスプレイ”
時任静士
有機エレクトロニクス―新市場を切り開く―2011、第2章ここまで来た有機エレクトロニクス、日経BP社、58-69(2011)
(20)“有機デバイスのための塗布技術”
水上誠、時任静士
第5章, 5 有機トランジスタのフレキシブルディスプレイへの応用, シーエムシー出版, 175-183 (2012)
(19)“有機半導体デバイス―基礎から最先端材料・デバイスまで―”
時任静士
1.5節、pp.32-40、オーム社.
(18)“High-Performance Organic Thin-Film Transistors for Flexible AM-OLED Displays”
S. Tokito
ECS Transactions, 16(9), pp.23-31(2008)
(17)“低分子有機EL素子”
時任静士
発光と受光の物理と応用、日本学術振興会125委員会、培風館、pp.118-134 (2008)
(16)“Energy-Transfer Processes between Phosphorescent Guest and Fluorescent Host Molecules in Phosphorescent OLEDs”I. Tanaka and S. Tokito
Highly Efficient OLEDs with Phosphorescent Materials, Willey-VCH, pp.283-309(2007)
(15)“有機ELデバイス”
時任静士
基礎高分子科学、高分子学会編、化学同人、p.251(2006)
(14)“有機EL素子用材料”
時任静士
エコマテリアルハンドブック、丸善、pp.490-492(2006)
(13)“有機ELデバイスの基礎”
時任静士
図解「電子ディスプレイのすべて」、内田龍男監修、工業調査会、pp.220-227(2006)
(12)“デバイス構造から見た有機トランジスタ特性の現状と課題”
八尋正幸、時任静士、柳島延欣、池畑誠一郎
進化する有機半導体、エヌティー・エス、pp.285-296(2006)
(11) “有機TFT(薄膜トランジスタ)”
井上陽司、時任静士
電子ペーパー実用化最前線、エヌティー・エス、pp.255-266(2006)
(10)“Organic Light-emitting diode displays”
S. Tokito
Photonic in Broadcasting Technology, edited by K. Takizawa, Research Signpost, pp.227-238(2005)
(9)“リン光ホスト材料”
都築俊満、時任静士
有機EL材料技術、佐藤佳晴監修、シーエムシー、第7章、p.215(2004)
(8)“有機ELディプレイ”
時任静士
カラー画像処理とデバイス、画像電子学会編、電機大出版局、p.83-96(2004)
(7)"有機ELディスプレイ"
時任静士、安達千波矢、村田英幸
オーム社出版(2004)
(6)“Polymer Light-emitting Diodes using Phosphorescent Polymers”
S. Toktio
Monograph on Photonics Science and Technology, edited by H. Sasabe and C. Adachi, PWC publishing, pp.135-139(2003)
(5)“有機ELディスプレイ”
時任静士
ナノテクノロジーハンドブック、オーム社出版、第4章(2003)
(4)“Organic light-emitting diodes using alkaline-earth fluorides as an electron injection layer”
S. Tokito, H. Fujikwa, T. Mori, and Y. Taga
Conjugated Polymer and Molecular Interface, Marcel Dekker Inc., pp.525-543(2002)
(3)“ホール輸送材料”、有機EL材料とディスプレイ”
時任静士、藤川久喜、石井昌彦、多賀康訓
城戸淳二監修、シーエムシー、pp.131-147(2001)
(2)“共役系高分子”
時任静士
フラットパネルディスプレイ、工業調査会、pp.435-439(2001)
(1)“低分子系発光材料”
時任静士
有機EL素子とその工業最前線、宮田清蔵監修、シーエムシー、pp.36-53(1998)

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(50) “Flexible Printed Organic TFT Devices and IoT Sensor Applications”
Swiss e-Print -The Swiss Conference on Printed Electronics and Functional Materials, September 26, Bildungzentrum 21 Hotel, Basel, Switzerland (2017)
(49) “Flexible Printed Organic TFT Devices and Potential Applications”
2017 International Conference on Solid State Devices and Materials (SSDM2017), September 20, B-2-01 (Invited), Sendai International Center, Miyagi (2017)
(48) “Flexible and Printed Organic TFT Devices and IoT Sensor Applications”
Carbon-based Nnaodevices and Flexible Electronics Symposium, July 22, Peking University, China (2017)
(47) “Flexible and Printed OTFT Devices for Emerging Electronic Applications”
EDTM2017, March 1, Toyama International Conference Center, Toyama, Japan (2017)
(46) “Biosensor Platform Based on Organic-Effect Transistors”
ESTS2016, December 7-9, Rydges on Swanston, Melbourne, Australia (2016)
(45) “Flexible and Printed Organic TFT Devices and their Applications”
2016 MRS Fall Meeting & Exhibit, November 28, Boston Massachusetts, USA (2016)
(44) “Flexible and Printed Organic Electronics Overview of Printable Materials, OTFT Devices, and Applications”
The 7th Flexible and printed Electronics Korea, September 22, Daejeon, Korea (2016)
(43) “Newly Developed Printing Technologies for 3D Printed Electronics”
IS&T’s 32nd International Conference on Printing for Fabrication 2016 (NIP32), 12-16 September, Renold Building, University of Manchester, UK (2016)
(42) “Flexible and Printed Organic TFT Devices and Their Applications”
IEEE-NEMS 2016, April 19, Hotel Matsushima Taikanso, Matsushima, Japan (2016)
(41) “Flexible and Printed Organic Transistors and their Applications”
The 2nd ANGEL symposium, November 4, Yamagata University, Yonezawa, Japan (2015)
(40) “Flexible and Printed Organic TFT Devices and Integrated Cir cuits for Biosensor Applications”
2015 ICFPE, October 22, Taipei World Trade Center Nangang Exhibition Hall, Taiwan (2015)
(39) “Flexible and Printed OTFT Technology and its Applications”
International Symposium on Functional Polymers& Integrated Materials, October 3, Kanagawa University, Yokohama, Japan (2015)
(38) “Flexible Printed Organic TFT device arrays and Circuits”
The 15th International Meeting on Information Display (iMiD2015), August 19, EXCO, Daegu, Korea (2015)
(37) “Flexible Printed Organic Transistors and Their Applications”
KANEKA/SKKU Incubation Center International Symposium 2015, March 20, Sungkyunkwan university, Suwon, Korea (2015)
(36) “Flexible Printed OTFT Devices and Research in Emerging Applications”
The 11th International Thin-Film Transistor Conference (ITC2015), February 26, Rennes 1 University, Renne, France (2015)
(35) “Flexible Printed Organic TFT Arrays and Integrated Circuits"”
IDW'14, December 4, Toki Messe Niigata Convention Center, Niigata, Japan (2014)
(34) “Current Status of the Science of "Plastic Electronics"”
ICFPE2014, September 25, Heeger Beijing R & D Center, Beijing, China (2014)
(33) “Printed Organic TFT Arrays and Integrated Circuits”
IMID 2014, The 14th International Meeting on Information Display, August 27, EXCO, Daegu, Korea (2014)
(32) “Printed Organic TFT Arrays and Integrated Circuits on Flexible Plastic Films”
ADMD 2014, The 18th International Symposium on Advanced Display Materials and Devices, July 25, Tohoku University, Japan (2014)
(31) “Printed Organic TFT Arrays and Integrated Circuits”
SID Display Week '14, June 3rd, San Diego, CA, U.S.A.(2014)
(30) “Printed and Flexible Organic Electronics”
HUAWEI STW 2014, May 14, Shenzhen, China (2014)
(29) “Printed Organic TFT Devices and Their Applications to Flexible Integrated Circuits”
43rd Internepcon Japan, January 16, Tokyo Big Sight, Japan (2014)
(28) “Printed and Flexible Organic TFT Devices and Integrated Circuits”
IDW'13, The 20th International Display Woekshops, December 5, Sapporo, Japan (2013)
(27) “Progress in Printed Organic TFT Devices and Integrated Circuits”
PPC 2013, The 13th Pacific Polymer Conference, November 20, Taiwan (2013)
(26) “オール印刷法によるフレキシブル有機ELディスプレイの実現を目指して”
FPD International 2013, October 24, Yokohama, Japan (2013)
(25) “Progress in Printed Organic TFT Devices and Integrated Circuits”,
PE 2013 Integrated Smart Systems, October8-10, Dresden Germany (2013).
(24) “Flexible & Printed Organic Electronics”
In-depth Technology Insight, July 24, Korea (2013)
(23) “Fully Printed Organic TFT Devices and Ring-Oscillator Circuit”,
The 4th Asian Conference on Organic Electronics, December 21, Yonezawa, Japan (2012).
(22) “Conducting Polymers”
Symposium on Flexible Liquid Crystal Devices, September 26, Ohio, U.S.A.(2012).
(21)“Flexible Electronics based on Organic Transistors (OTFTs)”
Large-area, Organic & Printed Electronics (LOPE-C) 2012, ICM - Internationales Congress Center, Munich, Germany (2012).
(20)“Structural control of higly-ordered liquid crystalline semiconducting polymers and their application to thin-film transistors”
1st International Symposium on Self-Organizing molecular Semiconductors, I-3, 21th, Feb, Kuramae-Hall, Tokyo, Japan, (2012).
(19)“Improvements in Stability of Polymer-TFT Devices for Flexible Displays”
The 18th International Display Workshops, OLED2-1, 7th, Dec. Nagoya Congress Center, Aichi, Japan (2011).
(18)“Highly Stable Polymer-TFT Devices for Flexible Displays”
The 11th International Meeting on Information Display, 56-2, 11-15, Oct. KINTEX, Seoul, Korea (2011).
(17)“High-Order Structural Control of Liquid Crystalline Semiconducting Polymers and their Application to Thin-Film Transistros”
KJF International Conference on Organic Materials for Electronics and Photonics, OTM-I-07, 15-18, Sep. Gyeongju, Korea (2011).
(16)“Non-dispersive Bipolar Charge Transport in Phosphorescent Polymers”
International Conference on Electronic Materials and Nanotechnology Green Environment, Ramada Plaza Jeju Hotel, Jeju Island, Korea, 21-24, November (2010).
(15)“Mesophase Ordering in Semiconducting Polymer for Thin-Film Transistors”
International Workshop on Organic Electronics and Spintronics (March 8-9, 2010, Nagoya) [Invited]
(14)“High-performance organic thin-film transistors for flexible displays”
SPIE Optics & Photonics 2009, (August 4-6, 2009, San Diego) [Invited]
(13)“Strong phosphorescence from tris(8-hydroxyquinoline) aluminum in organic light-emitting diodes”
SPIE Optics & Photonics 2009, (August 4-6, 2009, San Diego) [Invited]
(12)“Flexible AM-OLED Displays Driven by Organic TFTs on a Plastic Substrate”
The 6th International Workshop on Active-Matrix Flatpanel Displays and Devices, (July 1-3, 2009, Nara) [Invited]
(11)“Energy Transfer in Phosphorescent OLED Devices”
The 4th East Asia Symposium on Functional Dyes and Advanced Materials, (June 2-5, 2009, Osaka) [Invited]
(10)“6 inch-Flexible AM-OLED Moving Image Display”
The 8th Annual 2009 Flexible Electronics & Displays Conference & Exhibition,(February 2-5, 2009), Arizona).
(9)“Energy Transfer in Organic Phosphorescent Host-Guest Systems”
Society for Information Display 2008 International Symposium, (May 18-23, 2008, Los Angeles) [Invited]
(8)“Challenge of Organic Electronics to Flexible Displays”
8th Chitose International Forum on photonics Science and Technology, (November 30, 2007, Chitose) [Invited]
(7)“Energy Transfers in organic light-emitting devices”
Handai Nanoscience and Nanotechnology International Symposium 2007, (September 27, 2007, Osaka) [Invited]
(6)“Management of Energy Transfer in Phosphorescent Host-Guest Systems”
International Display Conference and Manufacturing Conference (IDMC) 2007, (August 5, 2007, Taipei) [Invited]
(5)“High-mobility polymer TFTs based on liquid crystalline semiconducting polymers”
KINKEN Workshop on Organic Field Effect Transistor (October 2006, Tohoku University) [Invited]
(4)“Flexible organic light-emitting diode displays”
2006 IEEE LEOS Annual Meeting Conference Proceedings (October 2006, Montrele. Canada) [Invited]
(3)“Organic TFTs for Flexible OLED Displays”
7th International Symposium on Functional π-Electron Systems (May 2006, Osaka) [Invited]
(2)“Organic Thin-Film Transistors Based on n-Type Organic Semiconductors”
The 2005 International Conference on Solid State Devices and Materials (September 12-15, 2005,Kobe) [Invited]
(1)“Flexible OLED displays using high-efficiency phosphorescent materials”
SPIE’s International Symposium on Optics & Photonics 2005 ( July 31, 2005, San Diego, USA) [Invited]

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[43] 特許第5053165号
インク組成物、有機EL素子の作製方法
[42] 特許第5008974号
発光素子
[41] 特許第4980795号
正孔注入層用溶液、有機EL素子の製造方法
[40] 特許第4933832号
発光素子
[39] 特許第4880923号
表示装置
[38] 特許第4846265号
表示装置用素子基板及びその製造方法
[37] 特許第4790298号
良溶解性イリジウム錯体及び有機EL素子
[36] 特許第4764328号
発光素子及び表示装置
[35] 特許第4741200号
有機ELディスプレイ及びその製造方法
[34] 特許第4707996号
フレキシブルディスプレイ及びその製造方法
[33] 特許第4629643号
有機発光素子及び表示装置
[32] 特許第4606824号
有機ELディスプレイの製造方法
[31] 特許第4589830号
フレキシブルディスプレイ及びその製造方法
[30] 特許第4574936号
燐光発光性化合物及び燐光発光性組成物
[29] 特許第4418731号
フォトルミネッセンス量子収率測定方法およびこれに用いる装置
[28] 特許第4374174号
有機薄膜デバイスおよび有機ELディスプレイ
[27] 特許第4310843号
有機電界発光素子の製造方法
[26] 特許第4250398号
単板型撮像素子およびこれを用いた撮像装置
[25] 特許第4220767号
有機化合物、有機EL素子およびディスプレイ
[24] 特許第4217086号
有機アクティブ素子およびその製造方法、表示デバイス
[23] 特許第4122691号
電界発光素子
[22] 特許第4115788号
有機発光材料、有機発光素子およびこれを用いたディスプレイ
[21] 特許第4092901号
有機電界発光素子
[20]特許第4048780号
キノリン誘導体化合物及び有機電界発光素子
[19]特許第3773499号
発光素子の外部量子効率測定方法及び装置
[18]特許第3993117号
表示駆動回路および画像表示装置
[17]特許第4060648号
化合物、並びに該化合物を用いた光デバイス、電子デバイス、エレクトロルミネッセンス素子、
トランジスタ、表示デバイス、及び表示装置
[16]特許第3716732号
有機化合物およびそれを用いた素子
[15]特許第3604596号
有機電界発光素子
[14]特許第3454157号
電界発光素子
[13]特許第3353699号
有機電界発光素子
[12]特許第3525674号
仕事関数またはイオン化ポテンシャル測定装置およびその方法
[11]特許第3690048号
電界発光素子
[10]特許第3528470号
微小共振器型有機電界発光素子
[9]特許第2940477号
誘電体薄膜と透明導電膜との積層膜および誘電体膜を用いた薄膜EL素子
[8]特許第2824411号
有機薄膜発光素子
[7]特許第2601898号
共役系有機ポリマーの製造方法
[6]特許第2601897号
共役系有機ポリマー製造方法
[5]特許第2592926号
非線形光学装置
[4]特許第2592908号
非線形光学装置
[3]特許第2526976号
新規高分子化合物、その製造法およびその高高分子化合物から共役系高分子を製造する方法
[2]特許第2565964号
非線形光学装置用光学媒質
[1]特許第2604615号
光記録媒体

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2005: Fujio Frontier Awards, The Institute of Image Information and Television Engineers
2008: Best Paper Award, International Display Workshops ‘08
2009: Best Paper Award, The Institute of Image Information and Television Engineers
2010: Fujio Frontier Awards, The Institute of Image Information and Television Engineers
2015: The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology
2015: Yamagata Prefecture Science and Technology Award

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