業績一覧/Publications

 

> 原著論文 (Original articles)

> 総説・解説 (Reviews)

> 書籍 (Books)

> 特許 (Patents)

> その他 (Miscellaneous)

> 受賞歴 (Awards)

> 講演 (Lectures)           の順に並んでいます。


当研究室のメンバー名には下線が引いてあります。

  1. 箇条書き項目原著論文 (Original articles)


  1. 箇条書き項目2013


  1. (1)Araki, J.*; Kagaya, K. Synthesis of polyrotaxane-glycine conjugates with various degrees of substitution via conjugation with Boc- or Z-glycine and subsequent deprotection. Polym. J. 2013, 45, 1081–1086.

  2. (2)Devarayan, K.; Hanaoka, H.; Hachisu, M.; Araki, J.; Ohguchi, M.; Bijoya, B. K.; Ohkawa, K.* Direct Electrospinning of Cellulose-Chitosan Composite Nanofiber. Macromol. Mater. Eng. 2013, 298, 1059–1064.

  3. (3)Devarayan, K.; Hayashi, T.; Hachisu, M.; Araki, J.; Ohkawa, K.* Correlations between Steric/thermochemical Parameters and O-/N-acylation Reactions of Cellulose. Carbohydr. Polym, 2013, 94, 468–478.

  4. (4)Devarayan, K.; Hachisu, M.; Araki, J.; Ohkawa, K.* Synthesis of Peptide–Cellulose Conjugate Mediated by a Soluble Cellulose Derivative Having β-Ala Esters (II): Conjugates with O-Phospho-L-Serine-Containing Peptides. Cellulose 2013, 20, 365–378.

  5. (5)Ohkawa, K.*; Nishibayashi, M.; Devarayan, K.; Hachisu, M.; Araki, J. Synthesis of Peptide–Cellulose Conjugate Mediated by a Soluble Cellulose Derivative Having β-Ala Esters. Int. J. Biol. Macromol. 2013, 53, 150–159.


  1. 箇条書き項目2012


  1. (6)Periasamy, V.; Devarayan, K.; Hachisu, M.; Araki, J.; Ohkawa, K. Chemical Modifications of Electrospun Non-woven Hydroxypropyl Cellulose Fabrics for Immobilization of Aminoacylase-I. J. Fiber Bioeng. Inform. 2012, 5, 191–205.

  2. (7)Araki, J.*; Yamanaka, Y.; Ohkawa, K. Chitin-Chitosan Nanocomposite Gels: Reinforcement of Chitosan Hydrogels with Rod-like Chitin Nanowhiskers. Polym. J., 2012, 44, 713–717.

  3. (8)Uddin, A. J.; Araki, J.; Fujie, M.; Sembo, S.; Gotoh, Y*. Interfacial Interaction and Mechanical Properties of Chitin Whiskers/PVA Gel-spun Nanocomposite Fibers. Polym. International, 2012, 61, 1010–1015.

  4. (9)Araki, J.; Ohkawa, K.; Uchida, Y.; Murakami, Y. Synthesis of a “Molecular Rope Curtain”: Preparation and Characterization of a Sliding Graft Copolymer with Grafted PEG Side Chains by the “Grafting onto” Strategy. J. Polym. Sci. A Polym. Chem., 2012, 50, 488–494.


  1. 箇条書き項目2011

  2. (10)Mera, A.; Araki, J.; Ohtsuki, T.; Shimosaka, M.; Yoshida, N. Chitin Nanowhiskers Mediate Transformation of Escherichia coli by Exogenous Plasmid DNA. J. Biotechnol. Biomater., accepted.

  3. (11)Uddin, A. J.; Araki, J.; Gotoh, Y*. Extremely Oriented Tunicin Whiskers in Polyvinyl Alcohol Nanocomposites. Polym. International, 2011, 60, 1230–1239.

  4. (12)Sakai, Y.*; Ueda. K.; Katsuyama, N.; Shimizu, K.; Sato, S.; Kuroiwa, J.; Araki, J.; Teramoto, A.; Abe, K.; Ito, K.* Fabrication and Structural Analysis of Polyrotaxane Fibers and Films. J. Phys. Condensed Matter, 2011, 23, article No. 284108.

  5. (13)Uddin, A. J.; Araki, J.; Gotoh, Y*. Characterization of the Poly(vinyl alcohol)/Cellulose Whisker Gel Spun Fibers. Composites Part A 2011, 42, 741–747.

  6. (14)Uddin, A. J.; Araki, J.; Gotoh, Y*; Takatera, M. A Novel Approarch to Reduce Fibrillation of PVA Fibers Using Cellulose Whiskers. Textile Res. J., 2011, 81, 447–458.

  7. (15)Araki, J.* Polyrotaxane Derivatives. II. Preparation and Characterization of Ionic Polyrotaxanes and Ionic Slide-ring Gels. J. Polym. Sci. A Polym. Chem. 2011, 49, 2199–2209.

  8. (16)Uddin, A. J.; Araki, J.; Gotoh, Y*. Towards “Strong” Green Nanocomposites: Polyvinyl Alcohol Reinforced with Extremely Oriented Cellulose Whiskers. Biomacromolecules, 2011, 12, 617–624.


  1. 箇条書き項目2006–2010

  2. (17)Araki, J.* Effect of Preparation Conditions for Poly(ethylene glycol)/Cyclodextrin (PEG/CD) Polyrotaxane on Modes of End-capping Reactions and Decomposition of the Yielded Polyrotaxane. J. Polym. Sci. A Polym. Chem. 2010, 48, 5258–5264. (Erratum. J. Polym. Sci. A Polym. Chem. 2011, 49, 1298)

  3. (18)Katsuyama, N.; Shimizu, K.; Sato, S.; Araki, J.*; Teramoto, A.; Abe, K.*; Ito, K. Preparation of Polyrotaxane Fibers. Part II: Tensile Properties of Polyrotaxane Fibers Treated with Various Cross-linking Reagents Textile Res. J., 2010, 80, 1131–1137.

  4. (19)Katsuyama, N.; Shimizu, K.; Sato, S.; Kuroiwa, J.; Araki, J.*; Teramoto, A.; Abe, K.*; Ito, K. Preparation of Polyrotaxane Fibers. Part I. Influence of Dope Solvents on Physical Properties of Wet-Spun Polyrotaxane Fibers. Textile Res. J. 2010, 80, 834–840.

  5. (20)Araki, J.*; Kagaya, K.; Ohkawa, K. Synthesis and Characterization of Polyrotaxane-Amino Acid Conjugates; A New Synthetic Pathway for Amino-Functionalized Polyrotaxanes. Biomacromolecules 2009, 10, 1947–1954.

  6. (21)Kume, T.; Araki, J.*; Sakai, Y.; Mayumi, K.; Kidowaki, M.; Yokoyama, H.; Ito, K*. Static and Dynamic Light Scattering Studies on Dilute Polyrotaxane Solutions. J. Phys. Conference Ser. 2009, 184, Article No. 012018.

  7. (22)Samitsu, S.*; Araki, J.; Shimomura, T.; Ito, K*. Synthesis of a Molecular Tube in Dimethylsulfoxide and Its Inclusion Complexation Behavior with Poly (ethylene oxide–ran–propylene oxide). Macromolecules, 2008, 41, 5385–5392.

  8. (23)Araki, J.*; Kataoka, T.; Ito, K. Preparation of a “Sliding Graft Copolymer,” an Organic Solvent-Soluble Polyrotaxane Containing Mobile Side Chains, and Its Application for a Crosslinked Elastomeric Supramolecular Film. Soft Matter, 2008, 4, 245–249 (Selected as one of the ten “Polymer Content at RSC Publishing”. [Link] ).

  9. (24)Kataoka, T.*; Kidowaki, M.; Zhao, C.; Araki, J.; Ikehara, T.; Ito, K. Thermal Properties and Microstructures of Methylated Polyrotaxane Solutions. Current Drug Discovery Technologies, 2007, 4, 275–281.

  10. (25)Araki, J.*; Ito, K. Strongly Thixotropic Viscosity Behavior of Dimethylsulfoxide Solution of Polyrotaxane Comprising -Cyclodextrin and Low Molecular Weight Poly(ethylene glycol). Polymer, 2007, 48, 7139–7144.

  11. (26)Kidowaki, M.*; Nakajima, T.; Araki, J.; Inomata, A.; Ishibashi, H.; Ito, K*. Novel Liquid Crystalline Polymer with Movable Mesogenic Side Chains on Macrocycles of Polyrotaxane. Macromolecules 2007, 40, 6859–6862 (Selected as one of the “Most-Accessed Articles: July-September, 2007” of Macromolecules in July–September 2007, top 11th).

  12. (27)Araki, J.*; Kataoka, T.; Ito, K. New Solvent for Polyrotaxane. III. Dissolution in Calcium Thiocyanate Aqueous Solution or N-Methylmorpholine-N-Oxide (NMMO) Monohydrate and the Spontaneous Gelation of the Former Solution. J. Appl. Polym. Sci., 2007, 105, 2265–2270.

  13. (28)Kataoka, T.*; Nagao, Y.; Kidowaki, M.; Araki, J.; Ito, K. Liquid-liquid Equilibria of Polyrotaxane and Poly(vinyl alcohol). Colloids Surfaces B, 2007, 56, 270–276.

  14. (29)Araki, J.*; Kataoka, T.; Katsuyama, N.; Teramoto, A.; Ito, K.; Abe, K. A Preliminary Study for Fiber Spinning of Mixed Solutions of Polyrotaxane and Cellulose in Dimethylacetamide/Lithium Chloride (DMAc/LiCl) Solvent System. Polymer 2006, 47, 8241–8246.

  15. (30)Araki, J.*; Ito, K. Polyrotaxane Derivatives. I. Preparations of Modified Polyrotaxane with Nonionic Functional Groups and Their Solubility in Organic Solvents. J. Polym. Sci. A Polym. Chem. 2006, 44, 6312–6323.

  16. (31)Samitsu, S.*; Araki, J.; Kataoka, T.; Ito, K. New Solvent for Polyrotaxane. II. Dissolution Behavior of Polyrotaxane in Ionic Liquids and Preparation of Ionic Liquid-containing Slide-ring Gels. J. Polym. Sci. B Polym. Phys. 2006, 44, 1985–1994.

  17. (32)Araki, J.*; Ito, K. New Solvent for Polyrotaxane: Part I. Dimethyl-acetoamide/Lithium Chloride (DMAc/LiCl) system for Modification of Polyrotaxane. J. Polym. Sci. A Polym. Chem. 2006, 44, 532–538.


  1. 箇条書き項目2001–2005

  2. (33)Araki, J.*; Zhao, C.-M.; Ito, K. Efficient Production of Polyrotaxanes from -Cyclodextrin and Poly(ethylene glycol). Macromolecules 2005, 38, 7524–7527.

  3. (34)Frusawa, H.; Fukagawa, A.; Ikeda, Y.; Araki, J.; Ito, K.*; John, G.; Shimizu, T*. Aligning a Single-Lipid Nanotube with Moderate Stiffness. Angew. Chem. Int. Ed. 2003, 42, 72–74.

  4. (35)Araki, J.*; Kuga, S.; Magoshi, J. Influence of reagent addition on carbodiimide-mediated amidation for poly(ethylene glycol) grafting. J. Appl. Polym. Sci. 2002, 85, 1349–1352.

  5. (36)Araki, J.*; Kuga, S. Effect of trace electrolyte on liquid crystal type of cellulose microcrystals. Langmuir 2001, 17, 4493–4496.

  6. (37)Araki, J.*; Wada, M.; Kuga, S. Steric stabilization of a cellulose microcrystal suspension by poly(ethylene glycol) grafting. Langmuir 2001, 17, 21–27.


  1. 箇条書き項目In the 20th Century

  2. (38)Araki, J.*; Wada, M.; Kuga, S.; Okano, T. Birefringent glassy phase of a cellulose microcrystal suspension. Langmuir 2000, 16, 2413–2415. (Cover Article)

  3. (39)Araki, J.*; Wada, M.; Kuga, S.; Okano, T. Influence of surface charge on viscosity behavior of cellulose microcrystal suspension. J. Wood Sci. 1999, 45, 258–261.

  4. (40)Araki, J.*; Wada, M.; Kuga, S.; Okano, T. Flow properties of microcrystalline cellulose suspension prepared by acid treatment of native cellulose. Colloids Surfaces A 1998, 142, 75–82.


  1. 箇条書き項目総説・解説 (Reviews)

  2. (41)Araki, J. Electrostatic or Steric? – Preparations and Characterizations of Well-Dispersed Systems Containing Rod-like Nanowhiskers of Crystalline Polysaccharides. Soft Matter 2013, 9, 4125–4141.

  3. (42)荒木 潤、機能性超分子材料創製のためのポリロタキサン良溶媒系の探索、繊維学会誌、2009, 65, P-287–P-292.

  4. (43)Araki, J.; Ito, K. Recent Advances in the Preparation of Cyclodextrin-Based Polyrotaxanes and Their Applications to Soft Materials. Soft Matter 2007, 2, 1456–1473. (Cover article) (Selected as one of the “Highly Cited Papers” at “Essential Science Indicators” of ISI Web of Knowledge)

  5. (44)荒木 潤、伊藤耕三、ポリロタキサンおよびポリロタキサン誘導体の合成と性質、色材協会誌、2006, 79, 290-295。(審査付)

  6. (45)荒木 潤、空閑重則、セルロース微結晶のコロイド現象、Cell. Commn. 2000, 7, 111-116.


  1. 箇条書き項目書籍 (Books)

  2. (46)荒木 潤、伊藤耕三、環動ゲルおよび環動高分子材料の開発、『複合糖質の化学と最新応用技術』シーエムシー出版刊、2009、p. 189–197。

  3. (47)荒木 潤、伊藤耕三、PEG/シクロデキストリンポリロタキサンの調製および材料用途への応用、『シクロデキストリンの応用技術』シーエムシー出版刊、2008、p. 315–329。

  4. (48)Araki, J.; Wada, M.; Kuga, S.; Okano, T. Influence of surface charge on viscosity anomaly of microcrystalline cellulose suspensions. In: Hydrocolloids: Physical Chemistry and Industrial Application of Gels, Polysaccharides, and Proteins; edited by Nishinari, K.; Elsevier Amsterdam, (2000) Part 1; p. 283-288.


  1. 箇条書き項目特許 (Patents)

  2. (49)荒木 潤、太田和親、「液晶材料」、 特願2012-1513122012年7月5日出願人:国立大学法人信州大学

  3. (50)荒木 潤塚原麻衣、「多糖類固体の表面修飾方法」、特願2012-0204662011年2月2日出願人:国立大学法人信州大学・学校法人加計学園

  4. (51)後藤康夫、荒木 、アーメド ジャラル ウディン、「ポリビニルアルコール系コンポジット繊維およびその製造方法」、特開2011-208293、2010年3月29日出願、出願人:国立大学法人信州大学

  5. (52)佐光貞樹荒木 潤、片岡利介、伊藤耕三「ポリロタキサン及びポリマー並びにイオン性液体を有する材料、及びその製造方法」、PCT/JP2006/303377、2006年2月24日出願、出願人:国立大学法人東京大学

  6. (53)中嶌隆夫、木戸脇匡俊、荒木、片岡利介、伊藤耕三、「液晶性組成物」特願2006-58167、平成18年3月3日出願、出願人:国立大学法人東京大学

  7. (54)中嶌隆夫、木戸脇匡俊、荒木、片岡利介、伊藤耕三、「液晶性ポリロタキサン」、特願2006-58166、平成18年3月3日、出願人:国立大学法人東京大学

  8. (55)荒木 潤、伊藤耕三、「ポリロタキサンのポリマーブレンド及びその使用」、特願2006-129178、平成17年9月2日出願、出願人:国立大学法人東京大学

  9. (56)荒木 潤、伊藤耕三、佐光貞樹、中嶌隆夫、「ポリロタキサンの含有溶液及びその使用」、特願2005−255129、平成17年9月2日出願、出願人:国立大学法人東京大学

  10. (57)Kohzo Ito, Jun Araki, Changming Zhao, "MATERIALS HAVING CROSSLINKED POLYROTAXANE AND PROCESS FOR PRODUCING THESE", WO2005/108464.

  11. (58)伊藤耕三、荒木 潤、架橋ポリロタキサンを有する材料、並びにそれらの製造方法、特開2005-344097、出願人:伊藤耕三(国立大学法人東京大学に譲渡予定)

  12. (59)Kohzo Ito, Jun Araki, Changming Zhao, "POLYROTAXANE AND PROCESS FOR PRODUCING THE SAME ", WO2005/052026.

  13. (60)伊藤耕三、荒木 潤、趙 長明、ポリロタキサン及びその製造方法、特開2005-154675、出願人:伊藤耕三(国立大学法人東京大学に譲渡予定)

  14. (61)空閑重則、和田昌久、荒木 潤、ポリエチレングリコールでの表面修飾により分散安定化したセルロース微結晶粒子およびその製造法、特開2002-053670。

  15. (62)岡野 健、空閑重則、和田昌久、荒木 潤、微粒子セルロースおよびその製造方法、特開平11-343301。


  1. 国内特許 計47件(登録19件)、 国際特許 計13件(登録3件)

  2. 企業との共同出願のため記載を見合わせているものがあります。ご了承ください。


  1. 箇条書き項目その他 (Miscellaneous)

  2. (63)『創立60周年 信大人づくりの志3 研究者募り育てる「テニュア制度」 「経営」面から成果期待』 信濃毎日新聞2009年6月1日朝刊


  1. 箇条書き項目受賞歴 (Awards)

  2. (64)栗原真理セルロース学会第19回年次大会ポスター賞、2012、名古屋大学東山キャンパス。

  3. (65)Kesavan Devarayan, Jun Araki, Kousaku Ohkawa. Excellent poster presentation at the 6th International Conference on Advanced Fiber/Textile Materials, 2011, Ueda, Japan.

  4. (66)加賀谷圭佑2008年度日本化学会東海支部長賞(卒業論文)

  5. (67)Kazuhiro Koizumi, Jun Araki, Kousaku Ohkawa. Excellent poster presentation at the 2nd International Student Joint Symposium on High-Tech Fiber Engineering, 2008, Ueda, Japan.

  6. (68)Jun Araki, 4th Asian Cyclodextrin Conference 2007, The Nagai Poster Prize, The Grand Prize.


  1. 箇条書き項目講演 (Lectures)

  2. (69)荒木 潤、「ふたつの超分子 ーポリロタキサンとセルロース微結晶ー」、機能性高分子材料研究会第4回研究会、信州大学繊維学部上田キャンパス、2010年1月12日。

  3. (70)Jun Araki, “Utilization of Rod-like Nanowhiskers of Natural Crystalline Polysaccharides for Construction of Nanocomposite Materials”, SVBL Mini-Symposium: Utilization of Cellulose as Renewable Resources. SVBL Shinshu University, October 18th, 2010. [Link]

  4. (71)荒木 潤、「セルロースナノウィスカー 〜天然由来の高強度ナノ繊維〜」、おかやまバイオマスイノベーション創造センター開所記念セミナー、岡山リサーチパークインキュベーションセンター、2011年2月21日。

  5. (72)荒木 潤、「PEG/CD ポリロタキサンの修飾による特性の変化」、第5回超分子若手懇談会、戸倉上山田圓山荘、2011年7月7日。

  6. (73)Jun Araki, “Preparation, Characterization and Application of Cyclodextrin-Based Polyrotaxane.” Euro-Japan Polysaccharide Meeting, Nakashima Hall, The University of Tokyo, October 4th, 2012.

  7. (74)Jun Araki, “Polysaccharide Nanowhiskers –– High Performance Building Blocks for Nanostructures ––” Fourth International Symposium for Young Organic Chemists 2013 (4th ISYOC), NIMS, Tsukuba, March 7−8th, 2013.


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