千葉大学大学院工学研究院 融合理工学府 物質科学コース
発表論文リスト List of Publication (Norihisa KOBAYASHI et. al.,)
2024年
[183]Control of Ag deposition for improvement of specular reflection in Ag deposition-based electrochemical mirror through modulation of electrolysis condition
Shun Uji, Takahiro Kon, Kyosuke Mizuguchi, Kazuki Nakamura, Norihisa Kobayashi, Solar Energy Materials and Solar Cells, Volume 276, pp. 113088, 2024.
DOI:https://doi.org/10.1016/j.solmat.2024.113088
[182]Induced chiroptical properties of helical Eu(iii) complex by electrostatic interaction with DNA
Ziying Li, Nana Hitomi, Hideyuki Tanaka, Hitomi Ohmagari, Kazuki Nakamura, Miki Hasegawa and Norihisa Kobayashi, Materials Advances, Issue 5, pp. 1897-1902, 2024
DOI: https://doi.org/10.1039/D3MA00708A
[181]The effect of a polymer capping agent on electrodeposited silver nanoparticles in a silver deposition-based electrochromic device
Shun Uji, Kazuki Nakamura, Norihisa Kobayashi, Physical Chemistry Chemical Physics, Volume26, pp. 16466-16476, 2024. (Front cover)
DOI:https://doi.org/10.1039/D3CP06281C
[180]Novel optical modulation device based on an electrochemical reaction with seven optical states: Clear colorless, mirror, black, yellow, green, cyan, and blue emission
Shota Tsuneyasu, Shunsuke Kimura, Koshin Enomoto, Kazuki, Nakamura, Norihisa Kobayashi, Solar Energy Materials and Solar Cells, Volume269, pp. 112753, 2024.
DOI:https://doi.org/10.1016/j.solmat.2024.112753
[179]Controllable intermittent potential method for reflectance enhancement of silver deposition-based electrochromic cell
Hao Wang, Takanori Sugita, Kazuki, Nakamura, Norihisa Kobayashi, Solar Energy Materials and Solar Cells, Volume271, pp. 112830, 2024.
DOI:https://doi.org/10.1016/j.solmat.2024.112830
2023年
[178]Investigation of Electrolyte Species on Color Properties of an Electrochromic Device Featuring a Hybrid Capacitor Architecture
Zhuang Liang, Maiko Tozawa, Kazuki Nakamura, Norihisa Kobayashi, ITE Trans. on MTA, Volume11, Issue4, pp. 131-137, 2023.
DOI:https://doi.org/10.3169/mta.11.131
[177] Solvent-Free Mechanochemical Synthesis of Strongly Luminescent Eu(III) Hybrid Materials Using Tetramethylammonium Salts
Ziying Li, Kazuki Nakamura, and Norihisa Kobayashi, Bulletin of the Chemical Society of Japan, Volume 96, Issue8, pp. 816, 2023. (Selected paper and Cover picture)
DOI: https://doi.org/10.1246/bcsj.20230117
[176] Electrochemically regulated luminescence of europium complexes with β-diketone in polyether matrices
Ryoto Yabuta, Norihisa Kobayashi, and Kazuki Nakamura, Phys. Chem. Chem. Phys., Volume25, Issue38, pp. 25979, 2023. (Back cover picture)
DOI: https://doi.org/10.1039/D3CP02283H
[175] Thermally stable and strongly emitted CPL in Eu(D-facam)3 hybrid solids with an alkylammonium salt
Ziying Li, Kazuki Nakamura, and Norihisa Kobayashi, Journal of Materials Chemistry C, Volume11, Issue1, pp. 118, 2023.(Front cover)
DOI: https://doi.org/10.1039/D2TC04670A
[174] Analysis for coloration mechanism of reversible silver deposition-based electrochromic device by in situ observation of plasmonic nanoparticles with dark-field microscopy
Shun Uji, Shunsuke Kimura, Kazuki Nakamura, and Norihisa Kobayashi, Solar Energy Materials and Solar Cells, Volume 251, pp. 112119, 2023.
DOI: https://doi.org/10.1016/j.solmat.2022.112119
2022年
[173] Electrochemical control of luminescence color using luminescent leuco dye derivatives
Kazuki Nakamura, Namiko Yanagawa, and Norihisa Kobayashi, Journal of the Society for Information Display, Volume30, Issue1, pp. 15, 2022.
DOI: https://doi.org/10.1002/jsid.1077
[172] Device Lifetime Improvement and Efficiency of Upconverted Blue Electrochemiluminescenece From 9,10-Diphenylanthracene With DNA/Ru(bby)32+ Hybrid Film
Ryuki Ozawa, Kazuki Nakamura, Takashi Tachikawa, and Norihisa Kobayashi, Journal of the Imaging Society of Japan, Volume 61, pp. 562, 2022.
DOI: https://doi.org/10.11370/isj.61.562
[171]Alcoholic Solvent Effect on the Anion-Dependent Luminescence of Eu(Ⅲ) Complex in the Presence of Tetramethylammonium Cation
Ziying Li, Kazuki Nakamura, and Norihisa Kobayashi, 日本画像学会誌, Volume 61, pp. 194, 2022.
DOI: https://doi.org/10.11370/isj.61.194
[170] Compensative electrochromic device utilizing electro-deposited plasmonic silver nanoparticles and manganese oxide to achieve retention of chromatic color
Shunsuke Kimura, Hikaru Wakatsuki, Kazuki Nakamura, and Norihisa Kobayashi, Electrochemistry, Volume 90, Issue 4, pp. 047002, 2022.
DOI: https://doi.org/10.5796/electrochemistry.22-00006
[169] Electrochemical photoluminescence modulation of funtional materials and their electrochemical devices
Kazuki Nakamura, Kenji Kanazawa, and Norihisa Kobayashi, Journal of Photochemistry and Photobiology C: Photochemistry Reviews, Volume 50, pp. 100486, 2022.
DOI: https://doi.org/10.1016/j.jphotochemrev.2022.100486
[168] Magenta-Blue Electrofluorochromic Device Incorporating Eu(Ⅲ)Complex, Anthracene Derivative , and Viologen Molecule
Kazuki Nakamura, Namiko Yanagawa, and Norihisa Kobayashi, Materials, Volume 15, Issue 15, pp. 5202, 2022.
DOI: https://doi.org/10.3390/ma15155202
2021年
[167] Reflective‐Emissive Representation by Combining Ru(II)‐Complex‐Based Electrochemiluminescence and Localized‐Surface‐Plasmon‐Resonance‐Based Electrochromism
Shota Tsuneyasu, Masashi Kawara, Koshin Enomoto, Kazuki Nakamura, and Norihisa Kobayashi, Advanced Materials Technologies, Volume6, Issue1, pp. 2000881, 2021.
DOI: https://doi.org/10.1002/admt.202000881
[166] Anion-Dependent Outstanding Luminescence Enhancement of Eu(D-facam)3 Upon Coexistence With the Tetramethylammonium Cation
Ziying Li, Haruki Minami, Kazuki Nakamura, and Norihisa Kobayashi, ChemPhysChem, Volume22, Issue24, pp. 2511, 2021. (Front cover)
DOI: https://doi.org/10.1002/cphc.202100818
[165] Upconverted blue electrochemiluminescence of 9,10-diphenylanthracene with ultrafast response on photo-electro functional DNA/Ru(bpy)32+ hybrid electrode
Ryuki Ozawa, Haruki Minami, Kazuki Nakamura, and Norihisa Kobayashi, Journal of Materials Chemistry C, Volume9, Issue7, pp. 2252, 2021. (Inside front cover)
DOI: https://doi.org/10.1039/D0TC05651K
2020年
[164] Chiroptical property enhancement of chiral Eu(III) complex upon association with DNA‑CTMA
Haruki Minami, Natsumi Itamoto, Wataru Watanabe, Ziying Li, Kazuki Nakamura, and Norihisa Kobayashi, Scientific reports, Volume10, pp. 18917, 2020.
DOI:https://doi.org/10.1038/s41598-020-75808-w
[163] Alkyl ammonium ion-induced drastic emission enhancement of Eu(D-facam)3 in 1-butanol
Haruki Minami, Mayu Miyazato, Ziying Li, Kazuki Nakamura, and Norihisa Kobayashi, Chemical Communications, Volume56, pp. 13532, 2020. (Inside back cover)
DOI:https://doi.org/10.1039/d0cc04856a
[162] An improvement in the coloration properties of Ag deposition-based plasmonic EC devices by precise control of shape and density of deposited Ag nanoparticles
Shunsuke Kimura, Tomoko Sugita, Kazuki Nakamura, and Norihisa Kobayashi, Nanoscale, Volume12, pp. 23975, 2020. (Front cover)
DOI:https://doi.org/10.1039/d0nr05196a
[161] Non-Volatile Transistor Memory with a Polypeptide Dielectric
Lijuan Liang, Wenjuan He, Rong Cao, Xianfu Wei, Sei Uemura, Toshihide Kamata, Kazuki Nakamura, Changshuai Ding, Xuying Liu, and Norihisa Kobayashi, Molecules, Volume25, art. no. 499, 2020.
DOI:https://doi.org/10.3390/molecules25030499
2019年
[160] Effect of Capacitance of ITO Particle-modified Counter Electrode on Electrochromic Performance of 10-Methylphenothiazine
Zhuang Liang, Kazuki Nakamura, and Norihisa Kobayashi, Journal of the Imaging Society of Japan, Volume58, no. 6, pp. 596, 2019.
DOI:https://doi.org/10.11370/isj.58.596
[159] Bistable silver electrodeposition-based EC device with a Prussian blue counter electrode to maintain the mirror state without power supply
Shunsuke Kimura, Kazuki Nakamura, and Norihisa Kobayashi, Solar Energy Mat. Solar Cells, Volume205, art. no. 110247, 2019.
DOI:https://doi.org/10.1016/j.solmat.2019.110247
[158] Electrochemically Triggered Upconverted Luminescence for Light-Emitting Devices
Haruki Minami, Takuya Ichikawa, Kazuki Nakamura, and Norihisa Kobayashi, Chemical Communications, Volume 55, pp. 12611, 2019. (Back Cover)
DOI:https://doi.org/10.1039/c9cc05845a
[157] A multicolor electrochromic device having hybrid capacitor architecture with a porous carbon electrode
Zhuang Liang, Kazuki Nakamura, and Norihisa Kobayashi, Solar Energy Mat. Solar Cells, Volume200, art. no.109914, 2019.
DOI:https://doi.org/10.1016/j.solmat.2019.109914
[156] Improvement of cycling stability by introducing electric double layer capacitive counter electrode to the electrochromic device
Zhuang Liang, Yuichi Watanabe, Kazuki Nakamura, and Norihisa Kobayashi, Journal of Korean Society for Imaging Science and Technology, Volume25, no. 1, pp. 1, 2019.
DOI:https://doi.org/10.14226/KSIST.2019.25.01.1
2018年
[155] Electrochemical Control of Emission and Coloration with High Response and Durability by Introduction of Counter Reaction Material
Kenji Kanazawa, Kazuki Nakamura, Sei Uemura, and Norihisa Kobayashi, Journal of Photopolymer Science and Technology , Volume31, no.3, pp.353, 2018.
DOI:https://doi.org/10.2494/photopolymer.31.353
[154] A Viologen‐Eu(III)‐Modified TiO2 Electrode for Electroswitchable Luminescence and Coloration
Kenji Kanazawa, Kazuki Nakamura, and Norihisa Kobayashi, Chemistry Select , Volume3 , no.33, pp.9672, 2018.
DOI:https://doi.org/10.1002/slct.201801547
[153] Improvement of color retention properties of Ag deposition-based electrochromic device by introducing anion exchange membrane
Shunsuke Kimura, Ryo Onodera, Kazuki Nakamura, and Norihisa Kobayashi, MRS Communications, Volume8 , no.2, pp.498, 2018.
DOI:https://doi.org/10.1557/mrc.2018.55
[152] Enhanced red emissions of europium(III) chelates in DNA–CTMA complexes
Kazuki Nakamura, Haruki Minami, Amika Sagara, Natsumi Itamoto, and Norihisa Kobayashi, Journal of Materials Chemistry C , Volume6, no.16, pp.4516, 2018.
DOI:https://doi.org/10.1039/C8TC00255J
[151] A novel organic electrochromic device with hybrid capacitor architecture towards multicolour representation
Zhuang Liang, Masahiro Yukikawa, Kazuki Nakamura, and Norihisa Kobayashi, Physical Chemistry Chemical Physics , Volume20, no.30, pp.19892, 2018.
DOI:https://doi.org/10.1039/C8CP02274G
[150] Photonics of DNA/ruthenium(II) complexes
Norihisa Kobayashi, Haruki Minami, and Kazuki Nakamura, Nanophotonics, Volume7, pp.1373, 2018.
DOI:https://doi.org/10.1515/nanoph-2018-0029
[149] Enantioselective luminescence enhancement of chiral Ru(phen)32+ complexes by interaction with deoxyribonucleic acid
Haruki Minami, Kazuki Nakamura, and Norihisa Kobayashi, Journal of Nanophotonics, Volume12 , no.3, Art. No. 33005, 2018
DOI:https://doi.org/10.1117/1.JNP.12.033005
[148] DNA as Functional Material in Organic-Based Electronics
Lijuan Liang, Yubo Fu, Dongdong Wang, Yen Wei, Norihisa Kobayashi, and Takeo Minari, Applied Sciences , Volume8 , no.1, pp.90_1-11, 2018
DOI:https://doi.org/10.3390/app8010090
[147] Effects of silver halide complexes on optical and electrochemical properties of silver deposition-based electrochromic device,
Ryotaro Kimura, Ayako Tsuboi, Kazuki Nakamura, Norihisa Kobayashi, Solar Energy Materials and Solar Cells, Volume177, pp.128, 2018
DOI:https://doi.org/10.1016/j.solmat.2017.01.014
2017年
[146] In situ measurements of electrode potentials of anode and cathode in organic electrochromic devices
Shota Tsuneyasu, Yuichi Watanabe, Kazuki Nakamura, and Norihisa Kobayashi, Solar Energy Materials and Solar Cells, Volume163, pp. 200, 2017.
DOI:https://doi.org/10.1016/j.solmat.2017.01.035
[145] High Temperarture Hysteresis in Bio-Organic Field-Effect Transistor base on DNA-CTMA as Gate Dielectric
Lijuan Liang, Lian Fang Li, Yasushi Mitsumura, Kazuki Nakamura, Sei Uemura, Toshihide Kamata, Yen Wei, and Norihisa Kobayashi, Journal of Photopolymer Science and Technology, Volume30, Issue4, pp. 513, 2017.
DOI:https://doi.org/10.2494/photopolymer.30.513
[144] Electrochemical Stability of Diphenylanthracene and Its Effect on Alternating Current-Driven Blue-Light Electrochemi- luminescent Properties
Shota Tsuneyasu, Takuya Ichikawa, Kazuki Nakamura, and Norihisa Kobayashi, ChemElectroChem, Volume4, Issue7, pp. 1731, 2017.
DOI:https://doi.org/10.1002/celc.201600896
[143] Red luminescence control of Eu(III) complexes by utilizing the multi-colored electrochromism of viologen derivatives
Kenji Kanazawa, Yuta Komiya, Kazuki Nakamura, and Norihisa Kobayashi, Physical Chemistry Chemical Physics, Volume19, Issue26, pp. 16979, 2017.
DOI:https://doi.org/10.1039/C6CP08528H
[142] Ultrafast Response in AC-Driven Electrochemiluminescent Cell Using Electrochemically Active DNA/Ru(bpy)32+ Hybrid Film with Mesoscopic Structures
Shota Tsuneyasu, Ryota Takahashi, Haruki Minami, Kazuki Nakamura, and Norihisa Kobayashi, Scientific Reports, Volume7, Article number8525, 2017.
DOI:https://doi.org/10.1038/s41598-017-09123-2
2016年
[141] An electrochemically-driven dual-mode display device with both reflective and emissive modes using poly(p-phenylenevinylene) derivatives
Shota Tsuneyasu, Lu Jin, Kazuki Nakamura, and Norihisa Kobayashi, Japanese Journal of Applied Physics, Volume55, Number44, Article number041601, 2016.
DOI:https://doi.org/10.7567/JJAP.55.041601
[140] Why were Alternating-Current-Driven Electrochemiluminescence Properties from a Ru(bpy)32+ Dramatically Improved by the Addition of Titanium Dioxide Nanoparticles?
Shota Tsuneyasu, Kazuki Ichihara, Kazuki Nakamura, and Norihisa Kobayashi, Physical Chemistry Chemical Physics, Volume18, Issue24, pp. 16317, 2016.
DOI:https://doi.org/10.1039/C6CP02881K
[139] Electroresponsive Dual Functional Display Device Enabling Both Emissive and Reflective Modes by Combining Electrochemiluminescent and Liquid Crystal Materials
Shota Tsuneyasu, Kazuki Nakamura, and Norihisa Kobayashi, Chemistry Letters, Volume45, Issue8, pp. 949, 2016.
DOI:https://doi.org/10.1246/cl.160361
[138] Coloration mechanisms of Ag deposition-based multicolor electrochromic device investigated by morphology of Ag deposit and its optical properties
Ryou Onodera, Ayako Tsuboi, Kazuki Nakamura, and Norihisa Kobayashi, Journal of the Society for Information Display, Volume24, Issue7, pp. 424, 2016.
DOI:https://doi.org/10.1002/jsid.451
[137] Electrochemical Modulation of Emission and Coloration by Using Luminescent Lanthanide(III) Complex and Viologen Derivatives via Intermolecular Energy Transfer
Kazuki Nakamura, Kenji Kanazawa, Yuta Komiya, and Norihisa Kobayashi, Journal of the Imaging Society of Japan, Volume55, Issue2, pp. 184, 2016.
DOI:https://doi.org/10.11370/isj.55.184
[136] Thermo-switchable Dual-mode Displaying Media Enabling Multi-color Control of Both Emission and Coloration
Kouki Ogasawara, Kenji Kanazawa, Kazuki Nakamura, and Norihisa Kobayashi, Journal of the Imaging Society of Japan, Volume55, Issue2, pp. 149, 2016.
DOI:https://doi.org/10.11370/isj.55.149
[135] Thermally controlled dual-mode display media with red-green-blue coloration and fluorescence via energy transfer between emission materials and leuco dyes
Kouki Ogasawara, Kazuki Nakamura, and Norihisa Kobayashi, Journal of Materials Chemistry C, Volume4, Issue21, pp. 4805, 2016.
DOI:https://doi.org/10.1039/C6TC01027J
[134] フタル酸エステル誘導体と酸化ニッケルを用いたエレクトロクロミック素子における電極固定化の効果
浦直樹, 中村一希, 小林範久, 日本画像学会誌, Volume55, Issue1, pp. 27, 2016.
DOI:https://doi.org/10.11370/isj.55.27
[133] Electroswitchable optical device enabling both luminescence and coloration control consisted of fluoran dye and 1,4-benzoquinone
Kenji Kanazawa, Kazuki Nakamura, and Norihisa Kobayashi, Solar Energy Materials and Solar Cells, Volume145, pp. 42, 2016.
DOI:https://doi.org/10.1016/j.solmat.2015.06.061
[132] Chromatic control of multicolor electrochromic device with localized surface plasmon resonance of silver nanoparticles by voltage-step method
Ayako Tsuboi, Kazuki Nakamura, and Norihisa Kobayashi, Solar Energy Materials and Solar Cells, Volume145, pp. 16, 2016.
DOI:https://doi.org/10.1016/j.solmat.2015.07.034
[131] Temperature dependence of transfer characteristics of OTFT memory based on DNA-CTMA gate dielectric
Lijuan Liang, Yasushi Mitsumura, Kazuki Nakamura, Sei Uemura, Toshihide Kamata, and Norihisa Kobayashi, Organic Electronics, Volume28, pp. 294, 2016.
DOI:https://doi.org/10.1016/j.orgel.2015.11.003
2015年
[130] Electrochemical luminescence modulation in a Eu(iii) complex-modified TiO2 electrode
Kenji Kanazawa, Kazuki Nakamura, and Norihisa Kobayashi, Journal of Materials Chemistry C, Volume3, Issue27, pp. 7135, 2015.
DOI:https://doi.org/10.1039/C4TC02996H
[129] Stretching and Immobilization of Photo-electro Functional Nanowires Consisting of DNA and Functional Molecules
Norihisa Kobayashi and Kazuki Nakamura, Nonlinear Optics, Quantum Optics, Volume26, Issue1, pp. 161, 2015.
2014年
[128] Multicolor Electrochromism Showing Three Primary Color States (Cyan–Magenta–Yellow) Based on Size- and Shape-Controlled Silver Nanoparticles,
A. Tsuboi, K. Nakamura, N. Kobayashi,
Chemistry of Materials, vol. 26, no. 22, pp. 6477–6485, Nov. 2014.
DOI: 10.1021/cm5039039
[127] Effect of Dielectric Behavior of Gate Dielectric Polymers on Memory Characteristics of Organic Field-effect Transistors,
H. Sakai, H.-J. Cheong, T. Kodzasa, H. Tokuhisa, K. Tokoro, M. Yoshida, T. Ikoga, K. Nakamura, N. Kobayashi, S. Uemura,
Journal of Photopolymer Science and Technology, vol. 27, no. 3, pp. 333–337, Sep. 2014.
[126] 電極形状が銀析出型 EC 素子の鏡面化特性に与える影響,
坪井彩子, 中村一希, 小林範久, 日本画像学会誌, vol. 53, no. 4, pp. 265–271, 2014.
※2014年日本画像学会誌論文賞を受賞
[125] インピーダンス分光法によるトリフェニルアミン誘導体添加ポリマー膜の 電荷輸送特性解析,
石井佳太, 中村一希, 小林範久,
日本画像学会誌, vol. 53, no. 4, pp. 259–264, 2014.
[124] High-contrast electroswitching of emission and coloration based on single-molecular fluoran derivatives.,
K. Kanazawa, K. Nakamura, N. Kobayashi,
The Journal of Physical Chemistry A, vol. 118, no. 31, pp. 6026–6033, Aug. 2014.
[123] L. Liang, K. Nakamura, S. Uemura, T. Kamata, N. Kobayashi, Structure of DNA-Octadecyltrimethylammonium Chloride Biopolymer Complex and the Application to Non-Volatile BiOTFT Memory, Science of Advanced Materials, vol. 6, no. 7, pp. 1516–1519, Jul. 2014.
[122] Effect of amide bond in gate dielectric polymers on memory performance of organic field-effect transistors,
H. Sakai, H.-J. Cheong, T. Kodzasa, H. Tokuhisa, K. Tokoro, M. Yoshida, T. Ikoga, K. Nakamura, N. Kobayashi, S. Uemura,
Japanese Journal of Applied Physics, vol. 53, no. 5S3, pp. 05HB13(1–5), Apr. 2014.
[121] Temperature-dependent characteristics of non-volatile transistor memory based on a polypeptide,
L. Liang, T. Fukushima, K. Nakamura, S. Uemura, T. Kamata, N. Kobayashi,
Journal of Materials Chemistry C, vol. 2, no. 5, pp. 879–883, Feb. 2014.
[120] Effect of TiO2 nanoparticles on Electrochemiluminescent Properties in Ru (bpy)3-based Emissive Display,
M. Takase, J. Sugimoto, K. Nakamura, N. Kobayashi,
Display and Imaging, vol. 1, no. 1, pp. 97–104, Jan. 2014.
2013年
[119] Electrochemically-switchable emission and absorption by using luminescent Lanthanide(III) complex and electrochromic molecule toward novel display device with dual emissive and reflective mode,
K. Nakamura, K. Kanazawa, N. Kobayashi,
Displays, vol. 34, no. 5, pp. 389–395, Dec. 2013.
[118] Electrochemical Materials for Novel Light Emitting Device and Dual Mode Display, Journal of Photopolymer Science and Technology,
T. Nobeshima, K. Nakamura, N. Kobayashi,
vol. 26, no. 3, pp. 397–402, Aug. 2013.
[117] Chromatic characterization of novel multicolor reflective display with electrochemically size-controlled silver nanoparticles, Journal of the Society for Information Display,
A. Tsuboi, K. Nakamura, N. Kobayashi,
vol. 21, no. 8, pp. 361–367, Aug. 2013.
※JSID 2013 Student Paper Awardを受賞
[116] A localized surface plasmon resonance-based multicolor electrochromic device with electrochemically size-controlled silver nanoparticles.,
A. Tsuboi, K. Nakamura, N. Kobayashi,
Advanced materials, vol. 25, no. 23, pp. 3197–3201, Jun. 2013.
※内表紙イラストとしても掲載
[115] Advantage of Immobilization of Phthalate Derivatives on Indium Tin Oxide Electrode over TiO2 Electrode in Their Electrochromic Properties,
N. Ura, K. Nakamura, N. Kobayashi,
Japanese Journal of Applied Physics, vol. 52, no. 5S1, pp. 05DC19(1–5), May 2013.
[114] Reaction Mechanism and Improved Performance of Solution-Based Electrochemiluminescence Cell Driven by Alternating Current,
T. Nobeshima, K. Nakamura, N. Kobayashi,
Japanese Journal of Applied Physics, vol. 52, no. 5S1, pp. 05DC18(1–4), May 2013.
[113] Dual Emissive-Reflective Display Materials with Large Emission Switching Using Highly Luminescent Lanthanide(III) Complex and Electrochromic Material,
K. Kanazawa, K. Nakamura, N. Kobayashi,
Japanese Journal of Applied Physics, vol. 52, no. 5S1, pp. 05DA14(1–5), May 2013.
[112] Alternating-Current-Driven, Color-Tunable Electrochemiluminescent Cells,
T. Nobeshima, M. Nakakomi, K. Nakamura, N. Kobayashi,
Advanced Optical Materials, vol. 1, no. 2, pp. 144–149, Feb. 2013.
※内表紙イラストにも掲載
[111] Thermoswitchable emission and coloration of a composite material containing a europium(iii) complex and a fluoran dye,
K. Nakamura, Y. Kobayashi, K. Kanazawa, N. Kobayashi,
Journal of Materials Chemistry C, vol. 1, no. 4, pp. 617–620, Jan. 2013.
※表表紙にも掲載,「Rising Stars and Young Nanoarchitects in Materials Science」論文選出
2012年
[110] ZnO分散型下引き層の複素インピーダンス解析と電荷輸送特性に及ぼす 色素添加効果の解明,
藤田裕樹, 中村一希, 小林範久
日本画像学会誌, vol. 51, no. 6, pp. 607–612, Dec. 2012.
[109] Electroswitching of emission and coloration with quick response and high reversibility in an electrochemical cell,
K. Kanazawa, K. Nakamura, N. Kobayashi,
Chemistry, an Asian journal, vol. 7, no. 11, pp. 2551–2554, Nov. 2012.
[108] The Effect of Negative Externally Added CCA Particles on Toner Charge,
K. Tsunemi, A. Suka, T. Iimura, T. Oguchi, A. Tsuboi, K. Nakamura, N. Kobayashi,
Journal of Imaging Science and Technology, vol. 56, no. 5, pp. 050404(1–7), Sep. 2012.
[107] Continuous-tone images obtained using three primary-color electrochromic cells containing gel electrolyte,
Y. Watanabe, T. Nagashima, K. Nakamura, N. Kobayashi,
Solar Energy Materials and Solar Cells, vol. 104, pp. 140–145, Sep. 2012.
[106] The effect of DNA chain length and chemical structure of the surfactant molecule on the properties of the DNA-based Bio-organic field effect transistor memory,
L. Liang, Y. Mitsumura, T. Yukimoto, S. Uemura, T. Kamata, K. Nakamura, N. Kobayashi,
Journal of Korean Society for Imaging Science & Technology, vol. 18, no. 3, pp. 16–24, Sep. 2012.
[105] Emission characteristics of AC-operated electrochemiluminescent (ECL) cell with electroconductive polymer,
M. Takase, S. Sugimoto, K. Nakamura, N. Kobayashi,
Journal of Photopolymer Science and Technology, vol. 25, no. 6, pp. 261–265, Aug. 2012.
[104] Influence of Core Particle of Externally-Added CCA on Toner Charge,
K. Tsunemi, A. Suka, T. Iimura, T. Oguchi, K. Nakamura, N. Kobayashi,
Journal of the Imaging Society Japan, vol. 51, no. 4, pp. 348–353, Aug. 2012.
[103] 熱刺激電流法を用いた ZnO 分散型下引き層の電荷輸送特性解析,
藤田裕樹, 山田健太, 中村一希, 小林範久,
日本画像学会誌, vol. 51, no. 4, pp. 340–347, Aug. 2012.
[102] Electrochemical optical-modulation device with reversible transformation between transparent, mirror, and black.,
S. Araki, K. Nakamura, K. Kobayashi, A. Tsuboi, N. Kobayashi,
Advanced Materials, vol. 24, no. 23, pp. OP122–OP126, Jun. 2012.
※内表紙イラストとしても掲載
[101] Electrochromic properties of electrochemically fabricated nanostructure nickel oxide and manganese oxide films,
T. Yoshino, K. Kobayashi, S. Araki, K. Nakamura, N. Kobayashi,
Solar Energy Materials and Solar Cells, vol. 99, pp. 43–49, Apr. 2012.
[100] Effect of counter electrode reaction on coloration properties of phthalate-based electrochromic cell,
Y. Watanabe, K. Imaizumi, K. Nakamura, N. Kobayashi,
Solar Energy Materials and Solar Cells, vol. 99, pp. 88–94, Apr. 2012.
2011年
[99] Improvement in reflective-emissive dual-mode properties of electrochemical displays by electrode modification.,
Y. Watanabe, K. Nakamura, N. Kobayashi,
Physical Chemistry Chemical Physics, vol. 13, no. 43, pp. 19420–19426, Nov. 2011.
[98] Non-volatile transistor memory fabricated using DNA and eliminating influence of mobile ions on electric properties,
T. Yukimoto, S. Uemura, T. Kamata, K. Nakamura, N. Kobayashi,
Journal of Materials Chemistry, vol. 21, no. 39, pp. 15575–15579, Oct. 2011.
[97] Electrochemically controllable emission and coloration by using europium(III) complex and viologen derivatives.,
K. Nakamura, K. Kanazawa, N. Kobayashi,
Chemical communications, vol. 47, no. 36, pp. 10064–10066, Sep. 2011.
[96] Toner Charge Control With Externally Added Charge Control Agent Particles,
K. Tsunemi, A. Suka, T. Iimura, T. Oguchi, K. Nakamura, N. Kobayashi,
Journal of Imaging Science and Technology, vol. 55, no. 5, pp. 050604(1–5), Sep. 2011.
[95] Electrochromic properties of the polyethylene terephthalate derivative film-modified electrode,
Y. Watanabe, K. Nakamura, N. Kobayashi,
Polymers for Advanced Technologies, vol. 22, no. 8, pp. 1283–1285, Aug. 2011.
[94] Multicolored electrochromism in 4,4’-biphenyl dicarboxylic acid diethyl ester.,
K. Imaizumi, Y. Watanabe, K. Nakamura, T. Omatsu, N. Kobayashi,
Physical Chemistry Chemical Physics, vol. 13, no. 25, pp. 11838–11840, Jul. 2011.
[93] Novel display device with dual emissive and reflective modes by using luminescent lanthanide(III) complexes and electrochromic materials,
K. Nakamura, K. Kanazawa, N. Kobayashi,
Journal of the Imaging Society Japan, vol. 50, no. 2, pp. 99–104, Apr. 2011.
~2010年
[92] Advantage of an AC-driven electrochemiluminescent cell containing a Ru(bpy)32+ complex for quick response and high efficiency,
T. Nobeshima, T. Morimoto, K. Nakamura, N. Kobayashi,
Journal of Materials Chemistry, vol. 20, no. 47, pp. 10630–10633, Dec. 2010.
[91] Fabrication of Novel Reflective–Emissive Dual-mode Display Cell Based on Electrochemical Reaction,
Y. Watanabe, K. Nakamura, N. Kobayashi,
Chemistry Letters, vol. 39, no. 12, pp. 1309–1311, Nov. 2010.
[90] Color-tunable multilayer organic light emitting diode composed of DNA complex and tris(8-hydroxyquinolinato)aluminum,
K. Nakamura, T. Ishikawa, D. Nishioka, T. Ushikubo, N. Kobayashi,
Applied Physics Letters, vol. 97, no. 19, pp. 193301(1–3), Nov. 2010.
[89] Metal microneedle fabrication using twisted light with spin,
T. Omatsu, K. Chujo, K. Miyamoto, M. Okida, K. Nakamura, N. Aoki, R. Morita,
Optics express, vol. 18, no. 17, pp. 17967–17973, Aug. 2010.
[88] Phthalate-derivative / TiO2 Modified Electrode for Electrochromic Application,
S. Tanaka, Y. Watanabe, T. Nagashima, N. Kobayashi,
Solar Energy Materials and Solar Cells, 93, 2098-2101 (2009).
[87] Bi-based Electrochromic Cell with Mediator for White/Black Imaging,
A. Imamura, M. Kimura, T. Kon, N. Kobayashi,
Solar Energy Materials and Solar Cells, 93, 2079-2082 (2009).
[86] Synthesis of Highly Conjugated Poly(3,9-carbazolyleneethynylenearylene)s Emitting Variously Colored Fluorescence,
K. Tamura, M. Shiotsuki, N. Kobayashi, T. Masuda, F. Sanda,
Polymer 50, 4479-4487 -2009
[85] Synthesis and Properties of Conjugated Polymers Containing 3,9- and 2,9-Linked Carbazole Units in the Main Chain,
K. Tamura, M. Shiotsuki, N. Kobayashi, F. Sanda, T. Masuda,
J. Polym. Sci. Part A Polym. Chem., 47, 3506-3517 (2009).
[84] Memory Mechanism of Printable Ferroelectric TFT Memory with Tertiary Structured Polypeptide as a Dielectric Layer,
M. Hasegawa, N. Kobayashi, S. Uemura, T. Kamata,
Synth. Met., 159, 961-964 (2009).
[83] Spectro-electrochemical properties of phthalate derivative-based Electrochromic cell with gel electrolyte containing DMSO solvent
Y. Watanabe, T. Nagashima, N. Kobayashi,
Electrochemistry, 77, 306-308 -2009
[82] Molecular structure and EL application of highly ordered structure DNA/Ru(bpy)32+ complex,
N. Kobayashi, K. Matsumoto, S. Inoue,
Proc. of SPIE, 7040, 70400K-1-8 (2008). (invited)
[81] Organic Electrochromism for a New Color Electrochromic Paper,
N. Kobayashi, S. Miura, M. Nishimura, H. Urano,
Solar Energy Materials and Solar Cells, 92 136-139 (2008).
[80] Gel-Electrolyte Based Flexible Electrochromic Devices Showing Subtractive Primary Colors,
N. Kobayashi, S. Miura, M. Nishimura, Y. Goh,
Electrochim. Acta, 53, 1643-1647 (2007).
[79] Synthesis and Properties of Carbazole-Based Hyperbranched Conjugated Polymers,
J. Q. Qu, M. Shiotsuki, N. Kobayashi, F. Sanda, T. Masuda,
Polymer, 48, 6481-6490 (2007).
[78] Structure and Optoelectrical Properties of photopolymerized PAn/DNA complex,
N. Kobayashi, T. Morimoto, T. Ushikubo,
Proceedings of SPIE, 6646, 664606-1-9 (2007).
[77] Chromic Materials,
N. Kobayashi,
Bulletin of the Ceramic Society of Japan, 42, 307-311 (2007).
[76] Electrochromic Imaging with Polymer Electrolyte Having High Temperature-Dependent Conductivity,
N. Kobayashi, M. Nishimura,
Solar Energy Materials and Solar Cells, 90, 538-545 (2006).
[75] Photoluminescence and Electroluminescence of 9, 10-Bis(silylethynyl)anthracene),
T. Karatsu, R. Hazuku, D. Nishioka, S. Yagai, N. Kobayashi, A. Kitamura,
J. Photopoly. Sci. Technol., 18, 65-68 (2005).
[74] Polymer Electrolyte with Large Temperature-Dependent Conductivity for Novel Electrochromic Imaging,
N. Kobayashi, M. Nishimura, H. Ohtomo,
Electrochim. Acta, 50, 3886-3890 (2005).
[73] Electrochemical and Spectroscopic characteristics of Dimethylterephthalate,
H. Urano, S. Sunohara, H. Ohtomo, N. Kobayashi,
J. Mater. Chem., 14, 2366-2368 (2004).
[72] Structure of DNA- Ru(bpy)32+ Complex and Its Application to Orange Color Elecrtoluminescence Device,
N. Kobayashi, M. Hashimoto, K. Kusabuka,
Elecrtochemistry, 72, 440-442 (2004).
[71] Synthesis of Polyacetylenes Having Pendant Carbazole Groups and Their Photo- and Electroluminescence Properties,
F. Sanda, T. Nakai, N. Kobayashi, T. Masuda,
Macromolecules, 37, 2703-2708 (2004).
[70] Mechanism of Electro-Optical Effect in Poly(γ-[2-(9-Carbazolyl)ethyl]-L-Glutamate) Lyotropic Liquid Crystal,
Y. Naijo, K. Ikeda, M. Tsunoda, T. Tanaka, N. Kobayashi,
Mol. Cryst. Liq. Cryst., 406, 381-387 (2003).
[69] d.c. Electric-field Induced Scattering Behavior of Lyotropic Liquid Crystalline Cell Composed of Carbazolyl Groups pendant Polypeptide and TNF,
Y. Naijo, E. Fujisaki, M. Tsunoda, T. Tanaka, N. Kobayashi,
Polym. Adv. Tech., 14, 653-657 (2003).
[68] Polymer Electrolyte for Novel Electrochromic Display,
N. Kobayashi, H. Chinone, A. Miyazaki,
Electrochim. Acta, 48, 2323-2327 (2003).
[67] Synthesis and Properties of Polyacetylenes Having Carbazole Pendant Groups,
F. Sanda, T. Kawaguchi, T. Masuda, N. Kobayashi,
Macromolecules, 36, 2224-2229 (2003).
[66] An Organic Red-emitting Diode with a Water-Soluble DNA-Polyaniline Complex Containing Ru(bpy)32+,
N. Kobayashi, S. Uemura, K. Kusabuka, T. Nakahira, H. Takahashi,
J. Mater. Chem., 11(7), 1766-1768 (2001).
[65] Photopolymerization of Aniline Dimer by Photoinduced Electron Transfer System for an Application to Image Formation,
S. Uemura, T. Nakahira, N. Kobayashi,
J. Mater. Chem., 11(6), 1585-1589 (2001).
[64] Photopolymerization of Aniline Derivatives in Solid State and Its Application,
Y. Kim, S. Fukai, N. Kobayashi,
Synthetic Metals, 119, 337-338 (2001).
[63] Formation of polyaniline/micelle complex with photocatalytic reaction,
S. Uemura, S. Tokuda, T. Nakahira, N. Kobayashi,
Synthetic Metals, 119, 89-90 (2001).
[62] Template Photopolymerization of Aniline Dimer by Photocatalytic Reaction of Ru(bpy)32+ in the presence of DNA,
S. Uemura, T. Shimakawa, K. Kusabuka, T. Nakahira, N. Kobayashi,
J. Mater. Chem., 11(2), 267-268 (2001).
[61] Photoelectrochromism and Photohydrolysis of Sulfonated Polyaniline Containing Ru(bpy)32+ Film for Negative and Positive Image Formation,
N. Kobayashi, N. Fukuda, Y.-J. Kim,
J. Electroanal. Chem., 498(1), 216-222 -2001
[60] Photopolymerization of Aniline Dimer by Photocatalytic Reaction of Ru(bpy)32+ in the Interlayer of Hectorite Clay,
S. Uemura, M. Yoshie, N. Kobayashi, T. Nakahira,
Polymer J., 32(11), 987-990 (2000).
[59] 光電機能ポリペプチドの電場配向とその光伝導特性,
内城禎久, 高木豪義, 田中豊英, 小林範久,
日本写真学会誌, 63(2),85-91 (2000).
[58] Charge Transport Properties of Triphenylamine Pendant Polypeptide,
M.Yoshida, M. Ayano, N. Kobayashi,
J. Polym. Sci., Part B, Polym. Phys., 38, 362-368 (2000).
[57] Improvement of Reversible Photoelectrochromic Reaction of Poly(aniline) in Polyelectrolyte Composite Film with the Dichloroethan Solution System,
Y. Kim, K. Teshima, N. Kobayashi,
Electrochim. Acta, 45, 1549-1553 (2000).
[56] Photoconductive Property in the Lyotropic Liquid Crystalline Cell Composed of Hole Transport Molecules Pendant Polyglutamate,
M. Yoshida, S. Mitsui, N. Kobayashi, R. Hirohashi,
Synthetic Metals, 101, 1587-1588 (1999).
[55] Photorewritable Conducting Polyaniline Image Formation with Photoinduced Electron Transfer,
Y. J. Kim, N. Kobayashi, K. Teshima, R. Hirohashi,
Synthetic Metals, 101, 699-700 (1999).
[54] Photopolymerized Conducting Polyaniline Micropattern and Its Application,
S. Uemura, K. Teshima, N. Kobayashi, R. Hirohashi,
Synthetic Metals, 101, 701-702 (1999).
[53] Charge Transport Property for Carbazolyl Group Pendant Poly(gultamate),
M. Yoshida, S. Mitsui, T. Kawai, N. Kobayashi, R. Hirohashi,
J. Polym.. Sci., Polym. Phys., 37, 61-69 (1999).
[52] Effect of pH on Photopolymerization Reaction of Aniline Derivatives with Tris(2, 2'-bipyridyl)ruthenium Complex and Methylviologen System,
K. Teshima, S. Uemura, N. Kobayashi, R. Hirohashi,
Macromolecules, 31, 6783-6788 (1998).
[51] Charge Transport Property in The Lyotropic Liquid Crystalline Cell Composed of Carbazolyl Groups Pendant Poly(glutamate),
M. Yoshida, S. Mitsui, M. Nagoshi, N. Kobayashi, R. Hirohashi,
Jpn. J. Appl. Phys., 37, L802-803 (1998).
[50] Conducting Polymer Image Formation with Photoinduced Electron Transfer Reaction,
N. Kobayashi, K. Teshima, R. Hirohashi,
J. Mater. Chem., 8, 497-506 (1998). (Feature Article).
[49] Phototelectrochromism of Poly(aniline) Derivatives by Ru Complex-Methyl viologen System Containing Polymer Electrolyte,
N. Kobayashi, T. Yano, K. Teshima, R. Hirohashi,
Electrochim. Acta, 43, 1645-1649 (1998).
[48] Photoelectric Properties of Solid State Ru Complex-Viologen Bilayer Cell Containing PEG,
N. Kobayashi, S. Miyamura, K. Teshima, R. Hirohashi,
Electrochim. Acta, 43, 1639-1644 (1998).
[47] Effect of Electropolymerization Temperature on Structural, Morphological and Conductive Properties of Poly(aniline) Deposit Prepared in 1,2-Dichloroethane without Proton Donor,
K. Teshima, K. Yamada, N. Kobayashi, R. Hirohashi,
J. Electroanal. Chem., 426, 97-102 (1997).
[46] Effects of Adsorption and Association with Multiply-Charged Counterions on the Electrochemical Responses of an Electroactive Polyelectrolyte,
N. Kobayashi, F. C. Anson,
J. Electroanal. Chem., 421, 99-105 (1997).
[45] 光機能性ポリペプチドとシアニン色素間の複合体形成ならびにその光導電性,
名越応昇, 吉田 学, 津田 統, 紙 英利, 小林範久, 廣橋 亮,
日本写真学会誌, 59(3), 457-464 (1996).
[44] Photopolymerization of Aniline with A Tris(2,2'-bipyridyl)ruthenium Complex- Methylviologen Polymer Bilayer Electrode System,
K. Teshima, K. Yamada, N. Kobayashi, R. Hirohashi,
Chem. Commun., 1996, 829-830.
[43] Electropolymerization of Aniline Derivatives in Non-aqueous Solution without Proton Donor,
K. Yamada, K. Teshima, N. Kobayashi, R. Hirohashi,
J. Electroanal. Chem., 394, 71-79 (1995).
[42] A New Polymer Electrolyte for Reversible Rhotoresponsive Ionic Conduction,
N. Kobayashi, S. Sato, K. Takazawa, K. Ikeda, R. Hirohashi,
Electrochim. Acta, 40(13-14), 2309-2311 (1995).
[41] トリス(2,2'-ビピリジル)ルテニウム錯体/メチルビオロゲン系を用いたポリアニリンの光酸化,
山田勝実, 赤藤昌彦, 手島健次郎, 小林範久, 池田幸治, 廣橋 亮,
日本写真学会誌, 57(6), 445-450 (1994).
[40] Photovoltaic Effect of Bilayer Solid-State Cell with Polysiloxane Pendant Tris(2,2'-bi pyridyl)ruthenium Complex,
Katsumi Yamada, Norihisa Kobayashi, Koji Ikeda, Ryo Hirohashi, and Masao Kaneko, Jpn. J. Appl. Phys., Volume 33, pp. L544, 1994.
[39] Photo- electrochemical Response of Methylviologen Cation Radical Incorporated in Coated Polysiloxane Films,
Katsumi Yamada, C. B. Lin, Norihisa Kobayashi, Koji Ikeda, Ryo Hirohashi, and Masao Kaneko, J. Electroanal. Chem., Volume 370, pp. 59, 1994.
[38] スピロピラン基を側鎖に持つ高分子固体電解質の光可逆的なイオン伝導度変化,
久保伸夫, 小林範久, 池田幸治, 廣橋 亮, 日本写真学会誌, 56巻, pp. 104, 1993.
[37] Photoresponse in Ionic Conductivity for Poly[(ω-hydroxy)oligo(oxyethylene) methacrylate-co-butyl methacrylate] Doped with Spiropyran Derivative and LiClO4,
Norihisa Kubo, T. Yoshii, Norihisa Kobayashi, Koji Ikeda, and Ryo Hirohashi, Polym. Adv. Tech., Volume 4, pp. 119, 1993.
[36] スピロベンゾピラン誘導体を用いた高分子イオン伝導体の光イオン伝導制御,
久保伸夫, 小林範久, 池田幸治, 廣橋 亮, 日本化学会誌, pp. 1148, 1992.
[35] Photoinduced Ionic Conductivity in Poly[(ω-methoxy)oligo(oxyethylene) methacrylate] Doped with Triphenylmethane Derivatives,
Nobuo Kubo, Norihisa Kobayashi, and Ryo Hirohashi, Polymer Bull., Volume 28, pp. 69, 1992.
[34] Effect of Anion Species on Electrochemical Behavior of Poly(aniline)s Electropolymerized in Dichloroethane Solution,
Norihisa Kobayashi, Katsumi Yamada, and Ryo Hirohashi, Electrochim. Acta, Volume 37, pp. 2101, 1992.
[33] Effect of Additive Salts on Ion Conductive Characteristics in Solid Polymer Electrolytes,
Norihisa Kobayashi, Shoji Sunaga, and Ryo Hirohashi, Polymer, Volume 33, pp. 3044, 1992.
[32] Photoinduced Ionic Conductivity in Poly(ethylene glycol) containing Malachite Green Leuco Hydroxide,
Nobuo Kubo, Norihisa Kobayashi, Masaru Ikeda, and Ryo Hirohashi, Polymer Bull., Volume 27, pp. 447, 1992.
[31] Control of Ion Conductivity in Solid Polymer Electrolyte by Photoirradiation,
Norihisa Kobayashi, Nobuo Kubo, and Ryo Hirohashi, Electrochim. Acta, Volume 37, pp. 1515, 1992.
[30] 配位金属錯体のエレクトロクロミズム(2) -2,2'-ビピコリンロジウム錯体のエレクトロクロミズム-,
小林範久, 峯田直志, 廣橋 亮, 日本写真学会誌, 53巻, pp. 389, 1990.
[29] Photochemical Reaction in Novel Solid Polymer Electrolytes and Its Effect on Ion Conductivity,
Norihisa Kobayashi, N. Kawai, M. Sadakuni, Ryo Hirohashi, and Eishun Tsuchida, New Polymeric Materials, Volume 2, pp. 103, 1990.
[28] Electroactive Poly(2-chloroaniline) Film Prepared by Electrochemical Polymerization in Organic Solvents without Protic Acid, Norihisa Kobayashi, Katsumi Yamada, and Ryo Hirohashi, Chem. Lett., Volume 19, pp. 1983, 1990.
[27] Larger Cation Can Move Faster in Solid Polymer Electrolyte,
Hiroyuki Ohno, Norihisa Kobayashi, Shinji Takeoka, Hajime Ishizaka, and Eishun Tsuchida, Solid state Ionics, Volume 40/41, pp. 655, 1990.
[26] Electrochromic Characteristics for All Solid State ECD Composed of Polymer Electrolytes,
Norihisa Kobayashi, Ryo Hirohashi, Hiroyuki Ohno, and Eishun Tsuchida, Solid State Ionics, Volume 40/41, pp. 491, 1990.
[25] Photoconduction in Intramolecular Charge Transfer Complex Dispersed Polymer Films,
Ryo Hirohashi, Norihisa Kobayashi, and Tomohisa Suzuki, Polymer Journal, Volume 22, pp. 191, 1990.
[24] Polymeric Solid Electrolyte for Single Ion Conduction,
Norihisa Kobayashi, Ryo Hirohashi, Hiroyuki Ohno, and Eishun Tsuchida, MRS Int'I. Mtg. on Adv. Mats., Volume 1, pp. 37, 1989.
[23] WO3/プルシアンブルー系エレクトロクロミック素子の発消色特性に及ぼす電解質層の効果,
小林範久, 廣橋 亮, 大野弘幸, 土田英俊, 電気化学協会誌, 57巻, pp. 1186, 1989.
[22] フェナントロリン誘導体の電解重合とその重合薄膜のエレクトロクロミズム,
小林範久, 峯田直志, 廣橋 亮, 日本写真学会誌, 52巻, pp. 314, 1989.
[21] Poly[((ω-carboxyl)-oligooxyethylene) Methacrylate] as a New Polymeric Solid Electrolyte for Alkali Metal Ion Transport,
Eishun Tsuchida, Hiroyuki Ohno, Norihisa Kobayashi, and Hajime Ishizaka, Macromolecules, Volume 22, pp. 1771, 1989.
[20] 配位金属錯体のエレクトロクロミズム(1),
芥川恵造, 小林範久, 久下謙一, 廣橋 亮, 日本写真学会誌, 51巻, pp. 200, 1988.
[19] ポリ(メタクリル酸オリゴオキシエチレン)/過塩素酸リチウム複合系高分子イオン伝導体を用いた全固体エレクトロクロミック素子(2),
小林範久, 西川通則, 大野弘幸, 土田英俊, 廣橋 亮, 日本写真学会誌, 51巻, pp. 375, 1988.
[18] ベンゾオキサゾ-ル誘導体のエレクトロクロミズム現象,
芥川 恵造, 小林範久, 田中豊英, 広橋 亮, 日本写真学会誌, 51巻, pp. 281, 1988.
[17] ポリ(メタクリル酸オリゴオキシエチレン)/過塩素酸リチウム複合系高分子イオン伝導体を用いた全固体エレクトロクロミック素子(1),
西川通則, 大野弘幸, 小林範久, 土田英俊, 廣橋 亮, 日本写真学会誌, 51巻, pp. 184, 1988.
[16] Single-Ion Conduction in Poly[Oligo(oxyethylene Methacrylate-co-Methacrylic Acid Alkali Metal Salts),
Eishun Tsuchida, Norihisa Kobayashi, and Hiroyuki Ohno, Macromolecules, Volume 21, pp. 96, 1988.
[15] Epitaxial Polymerization of 1,3-butadiyne by Chemical Vapor Deposition,
Mikitoshi Nakada, Norihisa Kobayashi, Hiroyuki Ohno, Eishun Tsuchida, Hiro Matsuda, Hachiro Nakanishi, and Masao Kato, J. Polym. Sci., Polym. Chem. Ed., Volume 25, pp. 3429, 1987.
[14] Selective 1,2 Polymerization of Triethylsilylbutadiyne and Its Electric Conductivity,
Norihisa Kobayashi, Mikitoshi Nakada, Hiroyuki Ohno, Eishun Tsuchida, Hiro Matsuda, Hachiro Nakanishi, and Masao Kato, New Polymeric Materials, Volume 1, 1987.
[13] Conductivity and Thermal Property of N-Alkyllated-heterocyclic Compound- TCNQ Complex Salts and Application to Organic Capacitor,
Eishun Tsuchida, Norihisa Kobayashi, and Hiroyuki Ohno, Electrochim. Acta, Volume 32, pp. 1197, 1987.
[12] 高分子固体電解質におけるイオン伝導挙動と発色現象,
小林 範久, 大野 弘幸, 土田 英俊, 広橋 亮,
高分子論文集, 44巻, pp. 317, 1987.
[11] Inherently Conductive Crystals of Cyanocobalt(III) Phthalocyanine,
Yuji Orihashi, Norihisa Kobayashi, Hiroyuki Ohno, Eishun Tsuchida, Hiro Matsuda, Hachiro Nakanishi, and Masao Kato, Synthetic Metals, Volume 19, pp. 751, 1986.
DOI: https://doi.org/10.1016/0379-6779(87)90447-4
[10] Poly[Sodium Methacrylate-co-Oligo- (oxyethylene) Methacrylate] as Polymeric Solid Electrolyte with Sodium Ionic Conduction,
Norihisa Kobayashi, Takashi Hamada, Hiroyuki Ohno, and Eishun Tsuchida, Polymer Journal, Volume 18, pp. 661, 1986.
DOI: https://doi.org/10.1295/polymj.18.661
[9] Highly Conductive Crystals of Cyanocobalt(III) Phthalocyanine Prepared by Electrolysis,
Eishun Tsuchida, Yuji Orihashi, Norihisa Kobayashi, and Hiroyuki Ohno, Synthetic Metals, Volume 15, pp. 201, 1986.
DOI: https://doi.org/10.1016/0379-6779(86)90024-X
[8] Selective 1, 2-Polymerization of Silylbutadiyne,
Norihisa Kobayashi, Mikitoshi Nakada, Eishun Tsuchida, Hiro Matsuda, Hachiro Nakanishi, and Masao Kato, J. Polym. Sci., Polym. Lett. Ed., Volume 24, pp. 215, 1986.
DOI: なし
[7] catena-μ-エチニレンフタロシアニナトコバルト(III)の合成とその導電性
折橋裕治, 小林範久, 土田英俊, 松田宏雄, 中西八郎, 加藤政雄, 日本化学会誌, 1986巻, 3号, pp. 410, 1986
DOI: https://doi.org/10.1246/nikkashi.1986.410
[6] 高分子膜のイオン伝導に及ぼす転移温度及びアルカリ金属塩の解離エネルギーの効果,
小林範久, 大野弘幸, 土田英俊, 日本化学会誌, 1986巻, 3号, pp. 441, 1986
DOI: https://doi.org/10.1246/nikkashi.1986.441
[5] Highly Conductive Single Crystals of Metallophthalocyanine,
Yuji Orihashi, Norihisa Kobayashi, Eishun Tsuchida, Hiro Matsuda, Hachiro Nakanishi, and Masao Kato, Chem. Lett., Volume 14, pp. 1617, 1985.
DOI: なし
[4] Poly[Lithium Methacrylate-co-Oligo-(oxy- ethylene) Methacrylate] as a Solid Electrolyte with High Ionic Conductivity,
Norihisa Kobayashi, Masahiro Uchiyama, and Eishun Tsuchida, Solid State Ionics, Volume 17, pp. 307, 1985.
DOI: なし
[3] Ionically High Conductive Solid Electrolytes Composed of Graf Copolymer Lithium Salt Hybrids,
Nohirisa Kobayashi, Masahiro Uchiyama, Kiyotaka Shigehara, and Eishun Tsuchida, J. Phys. Chem., Volume 89, Issue 6, pp. 987, 1985.
DOI: https://doi.org/10.1021/j100252a020
[2] Ionic Conductivity of LiX-Oligo(ethylene oxide)-Perfuluoropolymer Ternary Hybrids,
K. Shigehara, Norihisa Kobayashi, and Eishun Tsuchida, Solid State Ionics, Volume 14, pp. 85, 1984.
DOI: なし
[1] Lithium Ionic Conduction in Poly(methacrylic acid)-Poly(ethylene oxide) Complex Containing Lithium Perchlorate,
Eishun Tsuchida, Koichi Tsunemi, Hiroyuki Ohno, and Norihisa Kobayashi, Solid State Ionics, Volume 11, Issue 3, pp. 227, 1983.