PUBLICATIONS LIST (Peer reviewed Journals)

  審査付き論文2021 (Refereed papers in 2021)
1)(報道) Hiromasa Goto, Kyoka Komaba, Naoto Eguchi, Masanori Toyofuku, Nobuhiko Nomura, A possibility of polaron vortex magnet of polypyrrole prepared in virus liquid crystal, J Polym Sci. 2021;1-7. DOI: 0.1002/pol.202105858
ヘリカルウイルス液晶中での高分子合成

2) Kyoka Komaba, Hiromasa Goto, Ultrasonic helical coil electrochemical reactor for simultaneous electrolysis-sonification-electrochemical polymerization, and applications for pollen cleaning, Designed Monomers and Polymers, 2021, 24 (1), 343-350.
電気分解―電解重合―超音波の同時進行によるバブルポリマーの作成とスギ花粉の捕獲

3) (報道) Kyoka Komaba, Hiromasa Goto, Preparation of Bagworm silk/polyaniline Composite, Journal of Applied Polymer Science, accepted, 2021.10.6
自然界最強のミノムシの糸と導電性高分子の組み合わせによる導電性分子ワイヤーとトランジスタの作成

4) Mai Ichikawa, Kyoka Komaba, Hiromasa Goto, Rainbow Polyaniline: Chemical-electrochemical parallel polymerization for the production of rainbow color polyaniline as a morphological composite, Polymer-Plastics Technology and Materials
レインボーポリアニリンの作成

5) Yusuke Koshikawa, Hiromasa Goto, Magnetic behavior of an iron gluconate/polyaniline composite, J. Compos. Sci. 2021, 5, 252.
光学活性な金属配位型の糖類と導電性高分子の組み合わせによる磁性

6) Mai Ichikawa, Hiromasa Goto, Synthesis of a polyacetylene derivative bearing aspirin with chiral charge carrier “chiralions”, Journal of Macromolecular Science, Part A: Pure and Applied Chemistry
頭痛薬アスピリンをもつポリアセチレンと、キラル溶媒によるポリアセチレンの誘起光学活性

7) Mai Ichikawa, Hiromasa Goto, Hemoglobin-Polyaniline Composite and Electrochemical Field Effective Transistors J. Compos. Sci. 2021, 5(9), 236. https://doi.org/10.3390/jcs5090236
血液の主成分であるヘモグロビンと導電性高分子のコンポジット

8) (報道) Hiromasa Goto, Kyoka Komaba, Reiji Kumai, Sequential micro-Maltese cross array in the ground beetle Carabus insulicola, Micron 150 (2021) 103136
甲虫の甲羅の下に隠された十文字構造の配列の発見:虫の進化を問う

9) Dong, J.; Nimori, S.; Goto, H. Conjugated Polymer Films Having a Uniaxial Molecular Orientation and Network Structure Prepared by Electrochemical Polymerization in Liquid Crystals. Polymers 2021, 13, 2425. https://doi.org/10.3390/polym13152425
液晶中でのネットワークポリマーの合成

10) Kyoka Komaba, Reiji Kumai, Hiromasa Goto, Fiber-regeneration Reaction Field Polymerization (FRRP) for Preparation of Polyaniline Composites. Polymer-Plastics Technology and Materials, accept
新開発ダブルステップ法によるセルロース中でのレーヨン-ポリアニリン複合繊維

11) Roan Ito, Hiromasa Goto, Synthesis of aromatic liquid crystal π-conjugated copolymers bearing three-ring pyrimidine-based mesogens, and optical texture observations, Molecular Crystals and Liquid Crystals (accepted),
窒素を含む液晶をもつ芳香族型共役系高分子液晶

12) Roan Ito, Takuya Yonehara, Hiromasa Goto, Synthesis of a series of optically active polythiophene derivatives bearing myrtanoxy group　Polymer-Plastics Technology and Materials, 2021, VOL. 60, NO. 12, 1308-1316 (2021) doi.org/10.1080/25740881.2021.1888992
害虫忌避剤を側鎖にもつ光学活性共役系高分子液晶

  審査付き論文2020 (Refereed papers in 2020)
1)M. Ichikawa, H. Goto, A new synthetic route for the production of a thiophene-based methine-bridged type conjugated polymer. Chem. Pap. 75, 5133-5138 (2021). https://doi.org/10.1007/s11696-021-01536-8
カップリング反応によるナローバンドギャップポリマーの新しい合成法

2)Kyoka Komaba, Hiromasa Goto, A polyaniline/shark skin composite and its conductivity based on polaron hopping, Polymer-Plastics Technology and Materials, Accepted 12.20
魚類と導電性高分子のコンポジット

3)Kyoka Komaba, Noriko Hayashi, Eiji Tokgawa, Hiromasa Goto, An Attempt to Prepare Flexible-Strong Conductive Fiber with Bagworm Silk, Futurum, 66-67 (2020).　
昆虫の糸とポリピロールのコンポジット

4)Ryo Miyashita, Hiromasa Goto, Polymerization of furan by a sequential liquid crystal W-STEP method, Molecular Crystals and Liquid Crystals 710, 28-39 (2020).
W-Step連続重合法による液晶中でのポリフランの合成

5)Ryo Miyashita and Hiromasa Goto, Electrochemical polymerization in an SmG Liquid Crystal, accepted.
モザイク状液晶中での導電性高分子の合成

6)Kyoka Komaba, Nobuhiko Nomura, & Hiromasa Goto (2020) Electrochemical Polymerization in a Biological Communication Material, International Journal of Polymeric Materials and Polymeric Biomaterials, Accepted on 10 Aug, 2020. Published online: 06 Apr 2020　
生物間コミュニケーション物質を反応場とした導電性高分子の合成

7)Akiko Yatsu, Takuya Yonehara and Hiromasa Goto, Induction of Polyacetylene to a Chiral Smectic Liquid Crystal-Chiral Direct Conversion, Polymers 2020, 12, 1547
層状構造をもつ液晶性ポリアセチレンの合成とキラル物質による強誘電性液晶

8)Kyoka Komaba, Hiromasa Goto (2020) Direct bio-interface preparation for Spirulina and conductive polymer composite, International Journal of Polymeric Materials and Polymeric Biomaterials, 70, 669-673 (2021) DOI: 10.1080/00914037.2020.1746659
ヘリカルプランクトンを用いた共役系高分子コイルの作成

9)Akiko Yatsu, Takuya Yonehara, Hiromasa Goto,　 Preparation of poly(thiophene-alt-pyrrole) bearing chiral liquid crystal group, Polymer-Plastics Technology and Materials,　60, 226-232 (2020). Accepted on Jun 24, 2020.
液晶性ポリチオフェン-ポリピロール共重合体

10)Naoto Eguchi, Shigeki Nimori, Hiromasa Goto, Magnetically Aligned Helical Liquid Crystal Field Allows the Production of Polymer with Laser Diffraction and Prism Function, ACS Applied Polymer Materials/2(12)/pp.5452-5459
液晶磁場電解重合による共役系高分子の合成とレーザー回折プリズム効果

11)Naoto Eguchi, Hiromasa Goto, Relationship between polarons and optical activity for conductive polymer/hydroxypropyl cellulose composite, Journal of Polymer Science, Web published on 08 June 2020.
高分子液晶中での共役系高分子の合成とポーラロンと光学活性

12)Takuya Yonehara, Hiroki Hayashi, Shigeki Nimori, National Institute for Materials Science (NIMS), Tsukuba, Japan, Hiromasa Goto, Vapor treatment, liquid crystal formation, magnetic orientation, and crystallization (VLMC) to form helical polyisocyanides with oriented crystal‐like structure, Journal of Applied Polymer Science, Web published, 31 May 2020.
ヘリカル高分子の合成と気体処理による光学活性のチューニング

13)Kyoka Komaba, Hiromasa Goto, Soliton excitations in liquid crystal polyacetylene, Molecular Crystals and Liquid Crystals, 703, 69-78 (2020). https://doi.org/10.1080/15421406.2020.1769274
液晶性ポリアセチレンのソリトン

14)Akiko Yatsu, Hiromasa Goto, Preparation of a cellulose-polyphenylacetylene-polyaniline composite, Journal of the Textile Institute, 2020.6.19, accepted.
セルロースとポリアセチレンのコンポジット

15)Kyoka Komaba, Shota Hirokawa & Hiromasa Goto, Preparation of biocarbon micro coils, Soft Materials, 19, 40-49 (2020). DOI: 10.1080/1539445X.2020.1740259, Published online: 01 Apr 2020.
バイオカーボンマイクロコイル

16)Takuya Yonehara, Kyoka Komaba, Hiromasa Goto, Synthesis of Polyaniline in Seawater. Polymers, 12, 375. (2020)
海水中での導電性高分子ポリアニリンの合成

17)Takuya Yonehara, Hiromasa Goto, Synthesis of Polyaniline/Scarlet 3R as a Conductive Polymer. Polymers, 12, 579 (2020).　 doi:10.3390/polym12030579
染料とポリアニリンの複合体

  2019.8月現在 11報
1. Eguchi, Naoto; Goto, Hiromasa,
   Electrochemical Synthesis of Poly(3,4-ethylenedioxythiophene) Film Having Dot Structures for Diffraction Grating,
   ACS Applied Materials & Interfaces, accepted.
   


2. Kyoka Komaba, Hiromasa Goto,
   Simultaneous Polymerization-dyeing for Helical Vessels via Oxidative Coupling with Bach Reaction,
   Futurum-Tsukuba Science Journal, 1, 53-56 (2019).
   


3. Naoto Eguchi, Hiromasa Goto,
   An Attempt of Double Step Polymerization of 3,4-Ethylenedioxythiophene in Cholesteric Liquid Crystal,
   Futurum-Tsukuba Science Journal, 1, 57-58 (2019).
   


4. Masashi Otaki, Reiji Kumai, Hiromasa Goto,
   Synthesis of methyl‐substituted azobenzene-carbazole conjugated copolymers with photoinduced structural changes,
   Journal of Polymer Science Part A: Polymer Chemistry, accepted.
   


5. Hiroki Hayashi, Ryosuke Kikuchi, Reiji Kumai, Masaki Takeguchi and Hiromasa Goto,
   Rod-shaped 1D polymer-assisted anisotropic self-assembly of 0D nanoparticles by a solution-drying method,
   Journal of Materials Chemistry C, 2019, 7, 7442-7453.
   


6. Masashi Otaki, Hiromasa Goto,
   Helical Spin Polymer with Magneto-Electro-Optical Activity,
   Macromolecules, 52 (9), 3199-3209 (2019).
   DOI: 10.1021/acs.macromol.9b00274
   


7. Masashi Otaki, Reiji Kumai, Hajime Sagayama, and Hiromasa Goto,
   Synthesis and Properties of Chiral Polyazobenzenes with Photoinduced Change in Optical Activity,
   Macromolecules, 52 (6), pp 2340-2348 (2019),
   DOI: 10.1021/acs.macromol.8b02588
   


8. Masashi Otaki, Shota Hirokawa and Hiromasa Goto,
   Synthesis of Carbon Showing Weak Antiferromagnetic Behavior at a Low Temperature,
   Condensed Matter, 4(1), 33 (2019).
   


9. Masashi Otaki, Reiji Kumai, Hajime Sagayama, Hiromasa Goto,
   Synthesis of Polyazobenzenes Exhibiting Photoisomerization and Liquid Crystallinity,
   Polymers, 11(2), 348 (2019).
   


10. Haoyue Shen and Hiromasa Goto,
    Estimation of the helical twisting power of chiral inducers by TD-DFT calculation for designing electrochemical polymerization in cholesteric liquid crystal,
    Molecular Crystals and Liquid Crystals, 667, 1-15 (2018).
    


11. Naoto Eguchi, Takashui Sato, Hiromasa Goto,
    Chemical-Electrochemical Sequential Double-Step Polymerization in Liquid Crystal Allows for Imprinting of 3D Molecular Assembly Form Showing Electro-Chiroptical Effect,
    ACS Applied Polymer Materials, 1, 197-203 (2019).
    

  2018 11報
12. Yuki Kudo, Naoto Eguchi, Hiromasa Goto,
    Electrochemical polymerization in chiral liquid crystal on diffraction grating producing electro-active polymer with diffraction function: A combination of top-down and bottom-up techniques,
    Molecular Crystals and Liquid Crystals, 669, 145-153 (2018).
    


13. H. Goto,
    Liquid Crystal Auto-Induction and Amplification Function for Circularly Polarized Luminescence (CPL) with High gem-Value, and Dynamically Controllable CPL Devices,
    Molecular Crystals and Liquid crystals, 669, 27-35 (2018).
    


14. Kohei Yamabe, Hiromasa Goto,
    Sequential process of chiral imprinting and composite formation allows to produce electro-optically active poly(bis-EDOT)/hydroxypropyl cellulose,
    Advanced Composites and Hybrid Materials, 1, 541-547 (2018).
    https://doi.org/10.1007/s42114-018-0037-2
    


15. Kohei Yamabe, Hiromasa Goto,
    Electrosynthesis of Conducting Polymers in Lecithin Liquid Crystal Reaction Field,
    Fibers and Polymers, 19, 248-253 (2018).
    doi.org/10.1007/s12221-018-7692-8
    


16. Kohei Yamabe, Hiromasa Goto,
    Synthesis and surface observation of montmorillonite/polyaniline composites,
    Journal of Composite Science, 2, 15 (2018).
    doi:10.3390/jcs2010015
    


17. Kohei Yamabe, Kuniharu Nakajima, Hiromasa Goto,
    Polarons radical polymerization,
    Journal of Polymer Science Part A: Polymer Chemistry, 56, 1099-0518 (2018)
    doi: 10.1002/pola.28956
    


18. Kohei Yamabe, Hiromasa Goto,
    A new form of polyaniline: Polyaniline whiskers prepared in a bio-surfactant reaction field,
    Macromolecular Research, Volume 26, 704-708 (2018).
    https://link.springer.com/article/10.1007/s13233-018-6102-4
    


19. Kohei Yamabe, Qin Zhiyong, Hiromasa Goto,
    Electrochemical preparation of poly(1,3-dinaphthyl isothianaphthene),
    Futurum, 28-34 (2018).
    http://ojs.tulips.tsukuba.ac.jp/index.php/futurum/article/view/13/12
    


20. Toshinori Nagai, Hiromasa Goto,
    Selective Detection of Chiral Materials with Electrochemical Method,
    Futurum, 32-33 (2018).
    http://ojs.tulips.tsukuba.ac.jp/index.php/futurum/article/view/12/11
    


21. Naoto Eguchi, Hiromasa Goto,
    Electrochemistry of 4,4-Dimethyl-2,2’-bithiophene,
    Futurum, 20-31 (2018).
    


22. Aohan Wang, Mikihide Demura, Makoto M. Watanabe, Kotaro Ohara, Takanari Kashiwagi, Kazuo Kadowaki, Eiji Kita, Jiuchao Dong, and Hiromasa Goto,
    Surface Observation and Magnetism of Oil-Extracted Botryococcus braunii Residues before and after Carbonization,
    C-Carbon Research Journal, 4, 10 (2018).
    

  2017 9報
23. N. Eguchi, K. Kawabata, H. Goto,
    Synthesis of electro-optically active polymer composite of poly[2,2′-bis(3,4-ethylenedioxythiophene)-alt-fluorene]/ hydroxypropyl cellulose showing liquid crystal structure,
    eXPRESS Polymer Letters, 11, 846-851(2017).
    


24. Kaitsuka Y, Goto H.
    Synthesis of Conductive Cocoon Silk Composites,
    FIBRES & TEXTILES in Eastern Europe 25, 1(121), 17-22 (2017).
    doi: 10.5604/12303666.1227877
    


25. Hiroki Hayashi, Tomokazu Iseki, Shigeki Nimori, Hiromasa Goto,
    Vapour-Induced Liquid Crystallinity and Self-Recovery Mechanochromism of Helical Block Copolymer,
    Scientific Reports, 7, 3978 (2017).
    


26. Jiuchao Dong, Shigeki Nimori, Kohsuke Kawabata, Hiromasa Goto,
    Induction of helical structure by sesamin, and production of oriented helical polymer with liquid crystal magneto-electrochemical polymerization,
    Journal of Polymer Science Part A: Polymer Chemistry, 55, 1894-1899 (2017).
    doi: 10.1002/pola.28560
    


27. Aohan Wang, Hiromasa Goto,
    Carbon Material with Fibonacci Parastichy Structure,
    Soft, 5, 1-8 (2017).
    


28. Naoto Eguchi, Kohsuke Kawabata, Hiromasa Goto,
    Chiral-Electroactive Low-Bandgap Polymer Composite,
    Journal of Materials Science and Chemical Engineering, 5, 1-10 (2017).
    


29. Aohan Wang, Mikihide Demura, Makoto Watanabe, Hiromasa Goto,
    Hexagonal disk structures obtained during carbonization of Botryococcus braunii residues,
    Journal of Materials Science and Chemical Engineering, 2017, 5, 22-34.
    http://www.scirp.org/journal/PaperDownload.aspx?paperID=74079
    


30. Naoto Eguchi, Kohsuke Kawabata, Hiromasa Goto,
    Lyotropic Liquid Crystal Electrochemical Polymerization of Thiophene-Based Monomers: Polymerization in Cholesteric Liquid Crystal and Columnar Phase,
    Soft, 5, 9-19 (2017).
    


31. Naoto Eguchi, Kohsuke Kawabata, Hiromasa Goto,
    Electrochemical Polymerization of 4-Dimethyl-2,2’-Bithiophene in Concentrated Polymer Liquid Crystal Solution,
    Journal of Materials Science and Chemical Engineering, 5, 64-70 (2017).
    

  2016 18報
32. Hiromasa Goto,
    Absolute asymmetric electrochemical polymerization,
    Philosophical Magazine Letters, 96, 409-415 (2016).
    


33. Yuki Kudo, Hiromasa Goto,
    Crystal Surface/Liquid Crystal Interfacial Polymerisation: Preparation of Helical π-Conjugated Polymer on Mineral Crystal,
    International Letters of Chemistry, Physics and Astronomy, 69, 58-65 (2016).
    


34. Hiromasa Goto,
    Polymerisation on Bio-Tissues,
    International Letters of Chemistry, Physics and Astronomy, 68, 18-23 (2016).
    


35. Kuniharu Nakajima, Aohan Wang, Hirotsugu Kawashima, Hiromasa Goto,
    Synthesis of Polyaniline in the Presence of Physiological Active Compounds,
    International Letters of Chemistry, Physics and Astronomy, 67, 1-8 (2016).
    


36. Hiromasa Goto, Ryosuke Kikuchi and Aohan Wang,
    Spider Silk/Polyaniline Composite Wire,
    Fibers, 4, 1-7 (2016).
    doi: 10.3390/fib4020012
    


37. Hiroki Hayashi, Tomokazu Iseki, Hiromasa Goto,
    Induction of Reaction Environment by Optically Active Menthyl-based Compound for Electrochemical Polymerization in Cholesteric and Smectic Liquid Crystal,
    Chemistry Letters 45 (5) 511-513 (2016).
    


38. Yuki Kaitsuka, Hiromasa Goto,
    Synthesis and characterization of polyaniline composite with shell membrane,
    Fibers and Polymers, 17, 815-819 (2016).
    


39. Z. Y. Qin, H. Goto,
    Polycondensation for Synthesis of Multi-Functional Products,
    International Letters of Chemistry, Physics and Astronomy, 65, 1-10 (2016).
    


40. Yuki Kaitsuka, Hiromasa Goto,
    Preparation of Polyaniline/ZnO Films by Electrochemical Polymerization,
    Open Journal of Polymer Chemistry, 6, 1-7(2016).
    doi: 10.4236/ojpchem.2016.61001.
    


41. Hiromasa Goto,
    Circular Dichroism of Bipolarons in a Chiroptically Active Conjugated Polymer,
    Journal of Materials Science, Part B, Physics, 55, 471-482 (2016).
    


42. Hiromasa Goto,
    Preparation of Lyotropic Liquid Crystals and Optical Characterisation,
    International Letters of Chemistry, Physics and Astronomy, 64, 171-177 (2016).
    


43. Aohan Wang, Ryosuke Kikuchi, Hiromasa Goto,
    Synthesis of Polyaniline on an Aquatic Plant,
    International Letters of Chemistry, Physics and Astronomy", 64, 116-121 (2016).
    


44. Yuki Kudo, H. Goto,
    Bio-Interface Polymerisation: Synthesis of Polyaniline on the Marine Algae Surface,
    International Letters of Natural Sciences, 51, 14-20 (2016).
    


45. Hiroki Hayashi, Kohsuke Kawabata, Shigeki Nimori, Hiromasa Goto,
    A Poly(ter(3,4-ethylenedioxythiophene)) Showing Concentric-Circle Morphology Prepared by Electrochemical Synthesis in Smectic A Liquid Crystal under Vertical Strong Magnetic Field,
    Chemistry Letters, 45, 170-172, 2016.
    


46. Yuki Kaitsuka, Noriko Hayashi, Tomoko Shimokawa, Eiji Togawa, Hiromasa Goto,
    Synthesis of Polyaniline (PANI) in Nano-Reaction Field of Cellulose Nanofiber (CNF), and Carbonization,
    Polymers, 8, 40, 1-12 (2016).
    


47. Yuki Kaitsuka, Hiromasa Goto,
    UV Light Induces Dedoping of Polyaniline,
    Polymers 2016, 8, 34 (2016).
    doi:10.3390/polym8020034
    


48. Yuki Kudo, Hiromasa Goto,
    Applications of Natural Purple from Dolabella Auricularia: Colouration of Cholesteric Liquid Crystals,
    International Letters of Natural Science, 50, 1-6 (2016).
    https://tsukuba.repo.nii.ac.jp/?action=repository_uri&item_id=37010&file_id=17&file_no=1
    


49. Masaya Goto, Aohan Wang, Hiromasa Goto,
    Light Transmission by Lotus Plant Stem and Leaf Tissue: Natural Textiles for Optical Fibers,
    Journal of Natural Fibers, 14, 262-270 (2016).
    

  2015 15報
50. Hirotsugu Kawashima, Kohsuke Kawabata, Aohan Wang, Hiromasa Goto,
    Synthesis and optical properties of poly(phenylenethiophene)s bearing conjugated side chains,
    Designed Monomers and Polymers, 18, 661-668 (2015).
    https://tsukuba.repo.nii.ac.jp/?action=pages_view_main&active_action=repository_view_main_item_detail&item_id=35762&item_no=1&page_id=13&block_id=83
    


51. Masaya Goto, Aohan Wang, Hiromasa Goto,
    Observations of plants with tubular stems with possible biomimetic implications,
    International Letters of Natural Sciences, 43,17-26 (2015).
    doi:10.18052/www.scipress.com/ILNS.43.17
    


52. Atsushi Matsumura, Yang Fan, Hiromasa Goto,
    Asymmetric electrochemical polymerization in cholesteric liquid crystalline media: Effect of isomeric structures of chiral inducers containing bornyl group,
    Synthetic Metals, 202, 157-164 (2015).
    


53. Atsushi Matsumura, Fan Yang, Hiromasa Goto,
    Synthesis, Properties, and Doping Behavior of Optically Active Polythiophenes Bearing a Bornyl Group,
    Macromolecular Chemistry and Physics, 216(99), 931-938 (2015).
    


54. Atsushi Matsumura, Fan Yang, Hiromasa Goto,
    Synthesis of a Terpene-Based New Chiral Inducer and Preparation of an Asymmetric Polymer,
    Polymers 7, 147-155(2015).
    https://tsukuba.repo.nii.ac.jp/?action=pages_view_main&active_action=repository_view_main_item_detail&item_id=32733&item_no=1&page_id=13&block_id=83
    


55. Jiuchao Dong, Kohsuke Kawabata, Hiromasa Goto,
    Synthesis and characterization of a novel donor-acceptor-donor chiral inducer and application in electrochemical polymerization,
    J. Mater. Chem. C, 3, 2024-2032 (2015).
    


56. Hirotsugu Kawashima, Kohsuke Kawabata, Hiromasa Goto
    Intramolecular Charge Transfer (ICT) of A Chiroptically-Active Conjugated Polymer Showing Green Colour,
    J. Mater. Chem. C, 3, 1126-1133 (2015).
    doi: 10.1039/C4TC02124J
    


57. Hiromasa Goto, Atsushi Yokoo,
    Redox Active Carbon Materials from Polyaniline: Plasma Carbonization, Heat Carbonization, and Preparation of Capacitors,
    International Journal of Polymeric Materials, in press.
    


58. Aohan Wang, Kohsuke Kawabata, Hiromasa Goto,
    Synthesis and optical properties of poly(phenylenethiophene)s bearing conjugated side chains,
    Designed Monomers and Polymers, 18(4), 360-366 (2015).
    


59. Tomonori Ito, Tomoaki Jo, Jiuchao Dong, Hitoshi Hayashi, Hiromasa Goto,
    International Letters of Chemistry, Physics and Astronomy 7 (2015) 1-8.
    


60. Naoko Ueno, Hiromasa Goto,
    A preliminary study on Belousov-Zhabotinsky (BZ) reaction for consideration of basic chemical reaction in origin of life,
    International Letters of Chemistry, Physics and Astronomy 7 (2015) 23-25.
    


61. Hiromasa Goto, Kuniharu Nakajima,
    Cultivation of paramecium caudatum in the presence of physiologically active substances, and a redox active polymer,
    International Letters of Chemistry, Physics and Astronomy 7 (2015) 26-29.
    


62. Hiroki Hayashi, Hiromasa Goto,
    Preparation of Polythiophene Films Showing Optical Activity by Electrochemical Polymerisation in Cholesteric Liquid Crystal Containing Coumarine,
    International Letters of Chemistry, Physics and Astronomy 7 (2015) 42-47.
    


63. Yuki Kaitsuka, Hiromasa Goto,
    Chemical Polymerisation of Aniline in the Presence of Sericin,
    International Letters of Chemistry, Physics and Astronomy 7 (2015) 48-53.
    


64. Naoto Eguchi, Hiromasa Goto,　
    Synthesis of Conjugated Polymer Film by Electrolytic Polymerisation in Lyotropic Liquid Crystal,
    International Letters of Chemistry, Physics and Astronomy 7 (2015) 54-58.
    

  2014 12報
65. Rafael H.L. Kiebooms, Hiromasa Goto,
    The international workshop on science and patents, its origin and purpose,
    IOP Conf. Series: Materials Science and Engineering, 54 (2014) 012022, doi:10.1088/1757-899X/54/1/012022
    http://iopscience.iop.org/1757-899X/54/1/012022 （査読付き）
    


66. Hiromasa Goto,
    Novel function of polyaniline for biological environments: Cultivation of paramecium in the presence of polyaniline,
    IOP Conf. Series: Materials Science and Engineering, 54 (2014) 012024doi:10.1088/1757-899X/54/1/012024
    http://iopscience.iop.org/1757-899X/54/1/012024（査読付き）
    


67. Hiromasa Goto,
    Soliton electric generators based on conducting polymers,
    IOP Conf. Series: Materials Science and Engineering, 54 (2014) 012019doi:10.1088/1757-899X/54/1/012019
    http://iopscience.iop.org/1757-899X/54/1/012019
    


68. Hiromasa Goto, Jinmi Jwa, Kuniharu Nakajima, Aohan Wang,
    Textile-Surface Interfacial Asymmetric Polymerization,
    41118 (2014). DOI: 10.1002/APP.41118
    綿の繊維の表面を利用する高分子の新合成法開発―「繊維界面不斉重合法」…天然物のキラリティを転写、2014年7月10日 つくばサイエンスニュース
    


69. Yusuke Nita, Hiromasa Goto,
    Morphology and optical properties of chiral polymer films containing hetero-atoms prepared by electrochemical polymerisation in a cholesteric liquid crystal,
    Journal of Organic Semiconductors,2, 1-6 (2014). DOI:10.1080/21606099.2014.911125
    http://www.tandfonline.com/doi/pdf/10.1080/21606099.2014.911125
    


70. Kuniharu Nakajima, Kohsuke Kawabata, Hiromasa Goto,
    Water-soluble polyaniline/polysaccharide composites: polymerization and carbonization to yield carbon micro-bubbles,
    Synthetic Metals, 194, 47-51, (2014). DOI: 10.1016/j.synthmet.2014.04.015 Aufgust2014
    https://tsukuba.repo.nii.ac.jp/?action=pages_view_main&active_action=repository_view_main_item_detail&item_id=31311&item_no=1&page_id=13&block_id=83
    


71. Aohan Wang, Masanori Toyofuku, Nobuhiko Nomura, Hiromasa Goto,
    Quorum Sensing Materials as New Ligand for Palladium Catalyzed Migita-Kosugi-Stille Polycondensation,
    International Letters of Chemistry, Physics and Astronomy 13(1) (2014) 62-70 ISSN 2299-3843.
    


72. Tomokazu Iseki, Hiromasa Goto,
    Synthesis of 1,1'-binaphthyl derivatives by Miyaura-Suzuki cross-coupling in cholesteric liquid crystal phase,
    Monatshefte fur Chemie - Chemical Monthly, 145, 1145-1149 (2014). DOI: 10.1007/s00706-014-1199-4
    http://link.springer.com/article/10.1007%2Fs00706-014-1199-4
    


73. Hiroki Hayashi, Kohsuke Kawabata, Hiromasa Goto,
    Synthesis of new chiral inducer and preparation of semi-conducting polymer films showing fingerprint structure
    International Letters of Chemistry, Physics and Astronomy , 8, 6-12, (2014). ISSN 2299-3843
    http://www.ilcpa.pl/wp-content/uploads/2013/10/ILCPA-8-2014-6-12.pdf
    


74. Kuniharu Nakajima, Hiromasa Goto,
    Preparation of network π-conjugated copolymers with Ullmann type polycondensation,
    International Letters of Chemistry, Physics and Astronomy, 6, 33-38 (2014).
    http://www.ilcpa.pl/wp-content/uploads/2013/10/ILCPA-6-2014-33-38.pdf
    


75. Tomokazu Iseki, Kohsuke Kawabata, Shigeki Nimori, Hiromasa Goto,
    Synthesis of chiral inducers having double stereogenic centers for electrochemical polymerization in cholesteric liquid crystal medium,
    Synthetic Metals, 187, 217-223 (2014).
    http://hdl.handle.net/2241/121192
    


76. Tomokazu Iseki, Kohsuke Kawabata, Hirotsugu Kawashima, Hiromasa Goto,　
    Catalysis direction selective asymmetric polymerization in chiral liquid crystal medium,
    Polymer, 55, 66-72 (2014)
    つくばリポジトリー:
    https://www.tulips.tsukuba.ac.jp/dspace/bitstream/2241/120959/3/POLYMER_55-1.pdf
    

  2013 13報
77. Jiuchao Dong, Kohsuke Kawabata, Takahiro Seino, Fan Yang, Hiromasa Goto,
    Synthesis and characterization of thieno[3,2-b]thiophene-based linear shaped liquid crystals,
    40, 1455-1465 (2013).
    


78. Hiromasa Goto, Aohan Wang, Kohsuke Kawabata, Fan Yang,
    Synthesis and Properties of Low-Bandgap Liquid Crystalline π-Conjugated Polymers,
    Journal of Materials Science, 48, 7523-7532(2013).
    


79. Hiromasa Goto, Aohan Wang, Shigeki Nimori, Kohsuke Kawabata,
    Mechanical Orientation and Magnetic Evaporation Orientation of a Low-Bandgap Liquid Crystalline π-Conjugated Polymer,
    Liq. Cryst. Volume 40, Issue 9, September 2013, pages 1159-1166
    


80. K. Kawabata, S. Nimori, H. Goto,
    Horizontal and Vertical Orientation of Polybithiophenes by Electrochemical Polymerization in Magnetically Aligned Smectic Liquid Crystal,
    ACS Macro Letters 2, 587-591 (2013).
    


81. A. Wang, H. Kawashima, K. Kawabata, H. Goto,
    Synthesis of a pyrimidine-based new chiral inducer for construction of cholesteric liquid crystal electrolyte solution and its electrochemical polymerization, and stimulated emission like interference,
    Polymer, 54, 3821-3827 (2013).
    


82. (cover) H. Goto,
    Crystal-Liquid Crystal Ordered Double Layer Electroactive Polymer Prepared with Phase Transition Sequential Polymerization, Showing Metallic Electrochromism Bronze, Silver, and Gold,
    Journal of Polymer Science Part A: Polymer Chemistry, 51, 3097−3102 (2013). 16 MAY 2013, DOI: 10.1002/pola.26729.
    http://onlinelibrary.wiley.com/doi/10.1002/pola.26729/abstract (Open Access).
    

日本の研究.com 2014-06-25　で報道
新現象「金属反射エレクトロクロミズム」
【注目記事】金−銀−銅の金属色示す導電性ポリマーを開発―本物の金属の質感味わえるディスプレーの実現へ：
筑波大学http://research-er.jp/articles/view/17905

つくばサイエンスニュースNo.2014-23　で報道
金−銀−銅の金属色示す導電性ポリマーを開発―本物の金属の質感味わえるディスプレーの実現へ：筑波大学
2014.6 http://www.tsukuba-sci.com/?p=21257


83. A. Wang, K. Kawabata, H. Goto,
    Synthesis of Isothianaphthene (ITN) and 3,4-Ethylenedioxy-Thiophene (EDOT)-Based Low-Bandgap Liquid Crystalline Conjugated Polymers
    Materials, 6, 2218-2228 (2013); doi:10.3390/ma6062218A
    


84. K. Kawabata, M. Takeguchi, H. Goto,
    Optical Activity of Heteroaromatic Conjugated Polymer Films Prepared by Asymmetric Electrochemical Polymerization in Cholesteric Liquid Crystals: Structural Function for Chiral Induction,
    Macromolecules, 46, 2078-2091 (2013). DOI: 10.1021/ma400302j March 12, 2013
    


85. H. Hayashi, A. Wang, K. Kawabata, H. Goto,
    Helical twisting power of three-ring chiral molecules and polymerization in cholesteric electrolyte solution,
    IMaterials Chemistry and Physics, 137, 816-824 (2013). DOI: 10.1016/j.matchemphys.2012.10.017. ISSN: 0254-0584. 6 October 2012
    


86. H. Goto
    Liquid Crystal Stepwise Electropolymerization -An Approach to Create Insect Photonic Structure,
    RSC Advances, 3, 6347-6355 (2013). DOI: 10.1039/C3RA23409F 14 Mar 2013
    


87. H. Goto, A. Yokoo, M. Takeguchi, K. Kawabata,
    Small Carbon Form from Polyaniline/Metal,
    International Journal of Polymeric Materials and Polymeric Biomaterials (UK), 62, 426-432 (2013). 25 Feb 2013
    


88. S. Ohkawa, K. Kawabata, H. Goto,
    Synthesis of Polymers from Chiral Monomers in Chiral Liquid Crystals.
    IJ. Appl. Polym. Sci.,128, 3586-3591 (2013) DOI: 10.1002/APP.38561 30 September 2012 (Wiley, Materials Viewsで注目の論文として報道)
    


89. H. Goto, A. Yokoo,
    Polyaniline Nanospheres Synthesized in the Presence of Polyvinyl Alcohol, Followed by Preparation of Carbon Nanobeads Structures,
    Journal of Dispersion Science and Technology (UK), 34, 3, 406-410 (2013). DOI:10.1080/01932691.2012.66243. 25 Feb 2013
    

  2012 12報
90. K. Kawabata, H. Goto,
    Dynamic Emission Controllable Polymer Nanofibers: Electro-fluorescence Chromism and Polarized Emission of Polycarbazole Derivatives
    Chemistry−A European Journal 18, 15065-15072 (2012). DOI: 10.1002/chem.201201471
    


91. K. Kawabata, H. Goto,
    Synthesis and Optical Properties of 1,1-Binaphthol-Thiophene Alternating Copolymers with Main Chain Chirality,
    Journal of Materials Chemistry, 22, 23514-23524 (2012).
    https://www.tulips.tsukuba.ac.jp/dspace/bitstream/2241/120036/1/JMC_22.pdf
    


92. Y. Innami, H. Goto,
    Electro-synthesis and Electrochromism of Conducting Polymer Polypyrrole in Volcanic Spring Water,
    J. Hot Spr. Sci., 62, 182-187 (2012).
    


93. H. Goto, A. Yokoo,
    Synthesis of Magneto-Optically Active Polyanilines,
    Designed Monomers and Polymers (UK), 15, 601-608 (2012).
    


94. Y. Innami, H. Kawashima, R. Kiebooms, H. Aizawa, K. Matsuishi, H. Goto,
    Synthesis and Properties of Poly(Isothianaphthene Methine)s with Chiral Alkyl Chain,
    Materials (Swiss) 5, 317-326 (2012).
    


95. H. Goto, K. Kawabata,
    Preparation of Phenylenevinylene Derivatives Having Fluorescence and Chiral Induction Function,
    Journal of Dispersion Science and Technology (UK), 34, 311-321 (2012). DOI:10.1080/01932691.2012.666139
    


96. H. Goto, H. Kawashima,
    Polyaniline (PANI) composites-preparation in carbonated water, PANI/pulp and PANI/surfactant,
    Fibre Text. East. Euro., 20, 86-89 (2012).
    http://fibtex.lodz.pl/article648.html
    


97. (cover) H. Goto
    Electrochemical Polymerization in Crystal -Preparation of Polybithiophene with Crystal Order,
    J Polym Sci Part A: Polym Chem, 50, 622-628 (2012). DOI:10.1002/pola.25071.
    


98. H. Kawashima, H. Goto,
    Synthesis and Double Doping Behavior of a Poly(p-phenylenevinylene)s Bearing Conjugated Side Chains,
    J Polym Sci Part A: Polym Chem, 50, 1530-1538 (2012).
    


99. R. Ohta, S. Ohkawa, H. Goto,
    Polymerization of Thiophene Derivatives Bearing Bulky Azobenzene Substituent with Flexible Alkyl Spacer in Liquid Crystal,
    International Journal of Polymeric Materials (UK),61, 395-409 (2012).
    


100. H. Kawashima, H. Goto,
     Fabrication of Conductive Paper Coated with PEDOT-Preparation and Characterization
     Journal of Coating Technology and Research,9, 467-474.(2012).
     


101. Yuki Kudo, Hiromasa Goto,
     A possibility for generation of two species of charge carriers along main-chain and side-chains for a π-conjugated polymer 2013
     J. Phys.: Conf. Ser. 428 012006, 2012.
     doi:10.1088/1742-6596/428/1/012006
     

  2011 9報
102. Y. Innami, Rafael H. L. Kiebooms, T. Koyano, M. Ichinohe, S. Ohkawa, K. Kawabata, M. Kawamatsu, K. Matsuishi, H. Goto,
     Synthesis of a low-bandgap polymer bearing side groups containing phenoxy radicals,
     J. Mater. Sci., 46, 6556-6562 (2011).
     


103. H. Kawashima, H. Goto,
     Synthesis and Properties of a Chiroptically Active Oligomer from 3,4-Ethylenedioxythiophene and (−)-Myrtenal,
     Polymers (Swiss), 4, 1013-1022 (2011).
     


104. H. Kawashima, H. Goto,
     Preparation and Properties of Polyaniline in the Presence of Trehalose,
     Soft Nanosci. Lett., 1, 71-75 (2011).
     


105. H. Goto,
     A Possibility for Construction of an Iodine Cleaning System Based on Doping for pi-Conjugated Polymers,
     Polymers (Swiss) 3, 875-885 (2011).
     


106. H. Goto, S. Ohkawa, R. Ohta,
     Structural chirality of cholesteric liquid crystal produces atropisomerism: Chiroptical polyisocyanides from achiral monomer in cholesteric liquid, crystal matrix,
     Polymer (UK) 52, 1932-1937 (2011).
     


107. H. Goto,
     Synthesis of Polyaniline in Carbonated Water in the Form of Nanofibre,
     Fibre Text. East. Euro., 19, 15-17 (2011).
     http://fibtex.lodz.pl/article493.html
     


108. (Inside cover) H. Goto, K. Kawabata,
     Light driven asymmetric polymerization: an approach for tele-control reaction,
     Polymer Chemistry (UK) 2, 1098-1106 (2011). Doi: 10.1039/C0PY00396D
     


109. H. Goto,
     Electrically Conducting Paper from a Polyaniline/Pulp Composite and Paper Folding Art Work for 3-D Object,
     Tex. Res. J., 81, 122-127(2011).
     


110. K. Marumoto, N. Arai, H. Goto, M. Kijima, K. Murakami, Y. Tominari, J. Takeya, Y. Shimoi, H. Tanaka, S. Kuroda, T. Kaji, T. Nishikawa, T. Takenobu, Y. Iwasa,
     Microscopic mechanisms behind the high mobility in rubrene single-crystal transistors as revealed by field-induced electron spin resonance,
     Phys. Rev. B, 83, 075302 (2011).
     

  2010 8報
111. K. Kawabata, H. Yoneyama, H. Goto,
     Uniaxially Ordered Conjugated Polymer Film Prepared by Electrochemical Polymerization in a Nematic Liquid Crystal with Rubbing Orientation Method Showing Redox-Driven Tunable Dichroism,
     Polymer Chemistry (UK), 1(10), 1606-1608 (2010).
     


112. K. Kawabata and H. Goto,
     Electrosynthesis of 2,7-Linked Polycarbazole Derivatives to Realize Low-Bandgap Electroactive Polymers,
     Synth. Met., 160, 2290-2298(2010).
     


113. S. Ohkawa, R. Ohta, K. Kawabata and H. Goto,
     Polymerization in Liquid Crystal Medium: Preparation of Polythiophene Derivatives Bearing Bulky Pyrimidine Substituent,
     Polymers (Swiss), 2, 393-406 (2010).
     


114. (Cover) H. Goto,* R. Ohta
     Reconstruction of Achiral Polymer for Structural Chirality Using Cholesteric Liquid Crystal Medium and Light-Driven Chiroptic Modulation,
     JMacromol. Chem. Phys., 211, 2071-2080(2010).
     


115. H. Goto, I. Sawada, N. Nomura,
     Circular Dichroism and Circular Polarized Luminescence from a Green Fluorescent Protein−Initial Research for Chiroptical Emission of Biological Materials,
     Int. Nat. J. Polym. Mater., 59,786-792 (2010).
     


116. H. Goto,
     Synthesis of Polyaniline in Natural Volcanic Water,
     J. Hot Spr. Sci., 60, 134-144 (2010).
     


117. H. Goto,
     Optical Rotation and Electron Spin Resonance of an Electro-Optically Active Polythiophene,
     Mater. Chem. Phys., 122, 69-72 (2010).
     


118. H. Goto,* S. Nimori,
     Liquid Crystal Electropolymerisation under Magnetic Field and Resultant Linear Polarised Electrochromism
     J. Mater. Chem., 20, 1891-1898 (2010). DOI: 10.1039/B920983B
     

  2009 8報
119. H. Goto, Y.-S. Jeong, K. Kawabata, M. Takada, T. Kotanagi, H. Shigemori, N. Nomura,
     Electrochemical Preparation of an Electroactive Polymer Poly(dodecyloxy dibenzothiophene) (polyDDBTh) from Hydroxyl Dibenzothiophene (HDBTh) as a Bioconverted Monomer,
     J. Appl. Electrochem., 40, 191-195 (2009).
     


120. K. Kawabata, H. Yoneyama, H. Goto,
     Preparation of Furan-Based Monomers and Asymmetric Electrochemical Polymerization in Cholesteric Liquid Crystals: Optical Activity and Selective Reflection,
     Mol. Cryst. Liq. Cryst., 515, 3-15 (2009).
     


121. K. Kawabata, H. Goto
     Periodic Structure in a Fluorene-Based Polymer Prepared by Electrochemical Polymerization,
     Chem. Lett., 38, 706-707 (2009).
     


122. (Frontispiece) H. Goto,
     An Optically Active Polythiophene Exhibiting Electrochemically Driven Light-Interference Modulation,
     Adv. Funct. Mater., 19, 1335-1342 (2009).
     
     Wiley 社　Materials NewsにTOP NEWSで掲載
     
     読売新聞 (全国版)、日本経済産業新聞、日刊工業新聞で報道、「筑波大学新聞」、および筑波大学新聞学年末「筑波大学の一年」に掲載
     
     


123. H. Goto,
     Moire Patterns Allow Us to Visualize the Interference between Propagating Waves,
     Phys. Edu., 44, 338-339 (2009).
     


124. H. Goto,
     Interference Color Modulation, Tunable Refractive Index, and Chiroptical Electrochromism in a pi-Conjugated Polymer with Cholesteric Liquid Crystal Order,
     J. Appl. Phys., 105, 114906 (2009).
     


125. H. Goto,
     Vortex Fibril Structure and Chiroptical Electrochromic Effect of Optically Active Poly(3,4-ethylenedioxythiophene) (PEDOT*) Prepared by Chiral Transcription Electrochemical Polymerisation in Cholesteric Liquid Crystal,
     Journal of Materials Chemistry, 19, 4914-4921 (2009).
     


126. K. Kawabata, H. Goto,
     Liquid Crystalline π-Conjugated Copolymers Bearing a Pyrimidine Type Mesogenic Group,
     Materials, 2, 22-37 (2009).
     

  2008 8報
127. A. Tsujimoto, H. Goto,
     Synthesis of Poly(1,4-bis(3’,4’-ethylenedioxythiophene)-phenylene) (PBEDOT-P) in Cholesteric,
     Mol. Cryst. Liq. Cryst., 493, 82-92 (2008)
     


128. H. Goto,
     Magneto-Optically Active Polythiophene Derivatives Bearing a Stable Radical Group from Achiral Monomers by Polycondensation in Cholesteric Liquid Crystal,
     Polymer, 49, 3619-3624 (2008). （同結果、日刊工業新聞で報道）
     


129. H. Goto, K. Kawabata,
     Visualization of Nematic Liquid Crystal Director by Alignment of π-Conjugated Polymer Nanotubes,
     Macromolecules, 41, 4551-4554 (2008).
     


130. H. Goto, F. Togashi, A. Tsujimoto, R. Ohta, K. Kawabata
     Cholesteric Liquid Crystal Inductive Asymmetric Polymerisation of Thiophene Monomers,
     Liq. Cryst., 35, 847-856 (2008).
     


131. H. Yoneyama, K. Kawabata, A. Tsujimoto, H. Goto,
     Preparation of Iridescent-Reflective Poly(furan-co-phenylene)s by Electrochemical Polymerization in a Cholesteric Liquid Crystal Medium,
     Electrochem. Comm., 10, 965-969 (2008).
     


132. H. Goto, H. Yoneyama, F. Togashi, R. Ohta, A. Tsujimoto, E. Kita, K. Ohshima,
     Preparation of Conducting Polymers by Electrochemical Methods and Demonstration of a Polymer Battery,
     J. Chem. Edu., 85, 1067-1070 (2008).
     


133. H. Goto, T. Miyazawa, K. Tomishige, K. Kunimori, R. H. L. Kiebooms, Y. Akiyama, K. Akagi,
     Interfacial Conversion for Poly(para-phenylenevinylene) at a Cholesteric Liquid Crystal Surface,
     J. Appl. Polym. Sci., 107, 438-443 (2008).
     


134. M. Kyotani, H. Goto, K. Suda, T. Nagai, Y. Matsui, K. Akagi,
     Tubular-Shaped Nanocarbons Prepared from Polyaniline Synthesized by a Self-Assembly Process and Their Electrical Conductivity,
     J. Nanosci. Nanotech., 8, 1999-2004 (2008).
     

  2007 8報
135. H. Goto,
     Doping-Dedoping-Driven Optic Effect of π-Conjugated Polymers Prepared in Cholesteric-Liquid-Crystal Electrolytes,
     Phys. Rev. Lett., 98, 253901 (2007). http://jairo.nii.ac.jp/0025/00018766
     


136. R. Ohta, F. Togashi, H. Goto,
     Fynthesis of Chiral Conjugated Polymers Bearing Azobenzene Moieties Using Cholesterics,
     Macromolecules, 40, 5228-5230 (2007).
     


137. H. Yoneyama, A. Tsujimoto, H. Goto,
     Preparation of Optically Active Pyridine-Based Conducting Polymer Films Using a Liquid Crystal Electrolyte Containing a Cholesterol Derivative,
     Macromolecules, 40, 5279-5283 (2007).
     


138. (Front cover) H. Goto,
     Electrochemical Polymerization of Pyrrole in Cholesteric Liquid Crystals: Morphology and Optical Properties,
     J. Polym. Sci. Part A. Polym. Chem., 45, 1377-1387 (2007).
     


139. H. Goto,
     Optically Active Electrochromism in Polyanilines,
     J. Polym. Sci. Part A. Polym. Chem., 45, 2085-2090 (2007).
     


140. F. Togashi, R. Ohta, H. Goto,
     Cholesteric Medium Inductive Asymmetric Polymerization: Preparation of Optically Active Polythiophene Derivatives from Achiral Monomers in Cholesteric Liquid Crystals,
     Tetrahedron Lett., 48, 2559-2562 (2007).
     


141. H. Goto,
     Electrochiroptical Effect of an Optically Active Polybithiophene Prepared by Electrochemical Polymerization in a Cholesteric Electrolyte,
     J. Electrochem. Soc., 154, E63-E67 (2007).
     


142. H. Goto,
     Cholesteric Liquid Crystal Inductive Asymmetric Polymerization: Synthesis of Chiral Polythiophene Derivatives from Achiral Monomers in a Cholesteric Liquid Crystal,
     Macromolecules, 40, 1377-1385 (2007).
     

1)  H. Goto, 高性能反射型エレクトロクロミック材料の開発、ILC Annual report 2012, 145-149.,

1)  後藤博正ポリアニリンの複合化、月刊Materiwl Stage、 技術情報協会、2013年12月号 pp.65-68,

1)  後藤博正、液/液界面重合法を用いた導電性高分子のパルプ上での重合―新規FRP型導電性高分紙の作成と応用、コンバーテック 2013年12月号, pp. 87-89.,

1)  4) 後藤博正ＩＲ分析　テクニック事例集 第7節　導電性高分子の赤外線吸収スペクトル, 2013. pp. 286-295.,

2)  後藤博正、二森茂樹（共著）PEDOTの材料物性とデバイス応用、20012.3.5.

3)   野村暢彦、後藤博正、生物工学会誌 89巻4号 (特集2020年のバイオインダストリー −終わりのはじまりがそこに多環芳香族化合物のバイオ変換、p184-185

4)  野村暢彦, 後藤博正, 川畑公輔（共著）『エコバイオリファイナリー―脱石油社会へ移行するための環境ものづくり戦略―』シーエムシー出版2010. Eco-Biorefinery:Strategy for Change to Sustainable Bioproduction from Petroleum-dependent Production

5)  後藤博正, 常磁性高分子, 工業材料, 58, 36-37 (2010).

6)  後藤博正,米山裕之,最新導電性高分子全集,技術情報協会, pp. 60-75 (2007).

7)  後藤博正, ローバンドギャップ型導電性高分子液晶の磁場配向−磁場で分子をならべる, 化学工業, 58, 5-8 (2007).

8)  後藤博正, 液晶不斉反応場を用いた新規重合法―コレステリック液晶溶媒  中でのアキラルモノマーからのキラルポリマーの合成, 高分子論文集, 63, 445-449 (2006).

9)  後藤博正, 電解不斉重合による光学活性高分子の合成, 高分子, 53, 947 (2004)

Awards 研究室の輝かしい受賞歴

「強誘電液晶性ポリアセチレン誘導体」が米国化学会ハイライト紹介雑誌に選出

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