〒739-0046 広島県東広島市鏡山3-11-32
国立研究開発法人 産業技術総合研究所
中国センター 機能化学研究部門
当研究グループ関連の査読付き論文リスト
1. 遠藤貴士, 北川良一,細川純, 高分子論文集, 56(3), 166-173 (1999). "機械的粉砕によるセルロース繊維の微粒子形成挙動".
2. Jun Hosokawa, Takashi endo, Ryouichi Kitagawa and Masashi Nishiyama, Journal of Chemical Engineering of Japan, 29(6), 1057-1059 (1996),” Properties of novel ornamental material boards made from silk fibroin sheet”.
3. Takashi Endo, Ryouichi Kitagawa, Farao Zhang, Takahiro Hirotsu, Jun
Hosokawa, Chemistry Letters, 1999, 1155-1156. “Mechano-chemical Preparation
of Novel Cellulose-Poly (ethylene glycol ) Composite”.
4. Farao Zhang, Takashi Endo, Ry3ouichi Kitagawa, Hiroshi Kabeya, Takahiro
Hirotsu, Journal of Materials Chemistry, 10(12), 2666-2672 (2000). “Synthesis
and characterization of a novel blend of polypropylene with chlorella”.
5. Takashi Endo, Farao Zhang, Ryouichi Kitagawa, Takahiro Hirotsu, Jun Hosokawa, Polymer Journal, 32(2), 182-185 (2000). “Formation of Hydrogen-bonds between Particles of Fine Cellulose Powder to yield a Transparent Cellulose Plate”.
6.北川良一, 遠藤貴士,吉原一年, 久保隆昌, 壁谷洋, 張発饒, 広津孝弘, 高分子論文集, 57(5), 308-310 (2000).
"ポリガラクツロン酸とキトオリゴ糖からなる複合体の形成".
7. 久保隆昌, 吉原一年, 遠藤貴士, 北川良一, 宮田茂, 細川純, 廣津孝弘, 鈴木博雄,日本農芸化学会誌,76(7), 622-628
(2002), “キトサン添加によるフィチン酸-亜鉛錯形成の抑制”
8. Liqun Yang, Farao Zhang, Takashi Endo, Takahiro Hirotsu, Polymer, 43(8), 2591-2594 (2002). “Structural characterization of maleic anhydride grafted polyethylene by 13C NMR spectroscopy”.
9. Farao Zhang, Wulin Qiu, Liqun Yang, Takashi Endo, Takahiro Hirotsu,
Journal of Materials Chemistry, 12(1), 24-26 (2002). “Mechanochemical preparation
and properties of a cellulose-polyethylene composite”.
10. Farao Zhang, Takashi Endo, Wulin Qiu, Liqun Yang, Takahiro Hirotsu,
Journal of Applied Polymer Science, 84(11), 1971-1980 (2002). “Preparation
and mechanical properties of composite of fibrous cellulose and maleated
polyethylene”.
11. Farao Zhang, Wulin Qiu, Liqun Yang, Takashi Endo, Takahiro Hirotsu., Journal of Applied polymer Science, 89(12), 3292-3300 (2003). “Crystallization and melting behaviors of maleated polyethylene and its composite with fibrous cellulose”.
12. Liqun Yang Farao Zhang, Takashi Endo, Takahiro Hirotsu, Macromolecules,
36(13), 4709-4718 (2003). “Microstructure of Maleic Anhydride Grafted Polyethylene
by High-Resolution Solution-State NMR and FTIR Spectroscopy”.
13. Wulin Qiu, Farao Zhang, Takashi Endo, Takahiro Hirotsu, Journal of
Applied Polymer Science, 87(2), 337-345 (2003). “Preparation and characteristics
of composites of high-crystalline cellulose with polypropylene: Effects
of maleated polypropylene and cellulose content”.
14. Wulin Qiu, Farao Zhang, Takashi Endo, Takahiro Hirotsu, Journal of Applied Polymer Science, 91(3), 1703-1709 (2004). “Milling-Induced Esterification between Cellulose and Maleated Polypropylene”.
15. Mariko Ago, Takashi Endo, Takahiro Hirotsu, Cellulose, 11(2), 163-167
(2004). “Crystalline Transformation of Native Cellulose from Cellulose
I to Cellulose II Polymorph by a Ball-Milling method with a Specific Amount
of Water”.
16. Asahiro Nagatani, Takashi Endo, Takahiro Hirotsu, Mutsuhisa Furukawa,
Journal of Applied Polymer Science, 95(1), 144-148 (2005). “Preparation
and properties of cellulose-olefinic thermoplastic elastomer composites”.
17. Wulin Qiu, Takashi Endo, Takahiro Hirotsu, Journal of Applied Polymer Science, 109, 1376-1376 (2008), 修正アナウンス[Journal of Applied Polymer Science, 94(3), 1326-1335 (2004). “Interfacial interactions of a novel mechanochemical composite of cellulose with maleated polypropylene”]
18. Wu Min, Yoshiaki Yuguchi, Takako Kumagai, Takashi Endo, Takahiro Hirotsu,
Chemical Communications (11), 1288-1289 (2004). “Nano-complex formation
of cyclodextrin and azobenzene using supercritical carbon dioxide”.
19. Wulin Qiu, Farao Zhang, Takashi Endo, Takahiro Hirotsu, Polymer Composites,
26(4), 448-453 (2005). “Effect of Maleated Polypropylene on the Performance
of Polypropylene/Cellulose Composite”.
20. Wulin Qiu, Takashi Endo, Takahiro Hirotsu., European Polymer Journal, 41(9), 1979-1984 (2005). “A novel technique for preparing of maleic anhydride grafted polyolefins”.
21. Wulin Qiu, Farao Zhang, Takashi Endo, Takahiro Hirotsu, Journal of
Materials Science, 40(14), 3607-3614 (2005). “Isocyanate as a compatibilizing
agent on the properties of highly crystalline cellulose/polypropylene composites”.
22. Wulin Qiu, Takashi Endo, Takahiro Hirotsu., European Polymer Journal,
42(5), 1059-1068 (2006). “Structure and properties of composites of highly
crystalline cellulose with polypropylene: Effects of polypropylene molecular
weight”.
23. Wulin Qiu, Takashi Endo, Takahiro Hirotsu., Journal of Applied polymer Science, 102(4), 3830-3841 (2006). “Interfacial interaction, morphology, and tensile properties of a composite of highly crystalline cellulose and maleated polypropylene”.
24. Mariko Ago, Takashi Endo, Kunihiko Okajima, Polymer Journal, 39(5),
435-441 (2007). “Effect of solvent on morphological and structural change
of cellulose under ball-milling”.
25. Hiroyuki Inoue, Shinichi Yano, Takashi Endo, Tsuyoshi Sakaki, Sigeki
Sawayama, Biotechnology for Biofuels, 1(2), 2008.” Combining hot-compressed
water and ball milling pretreatments to improve the efficiency of the enzymatic
hydrolysis of eucalyptus”.
26. Yoshikuni Teramoto, Noriko Tanaka, Seung-Hwan Lee, Takashi Endo, Biotechnology and Bioengineering, 99, 75-85 (2008).” Pretreatment of Eucalyptus wood chips for enzymatic saccharification using combined sulfuric acid-free ethanol cooking and ball milling”.
27. Yoshikuni Teramoto, Seung-Hwan Lee, Takashi Endo, Bioresource Technology,
99, 8856-8863 (2008).” Pretreatment of woody and herbaceous biomass for
enzymatic saccharification using sulfuric acid-free ethanol cooking”.
28. Mariko Ago, Kazuishi Sato, Takashi ENDO, Kunihiko Okajima, 高分子論文集,65(7),
483-492 (2008), ” セルロース固体構造変化に及ぼす親水性および疎水性溶媒の効果Effects of Hydrophilic and
Hydrophobic Solvents on Solid Structure and Molecular Mobility of Cellulose”.
29. Yoshiyuki Sasaki, Takashi Endo, Noriko Tanaka and Hiroyuki Inoue, Green Chemistry, 11, 27-30 (2009).” Pretreatment of lignocellulosic biomass associated with the autoxidation of ethanol to acetal”.
30. Yoshikuni Teramoto, Seung-Hwan Lee, Takashi Endo, Bioresource Technology,
100, 4783-4789 (2009).” Cost reduction and feedstock diversity for sulfuric
acid-free ethanol cooking of lignocellulosic biomass as a pretreatment
to enzymatic saccharification”.
31. Yoshikuni Teramoto, Seung-Hwan Lee, Takashi Endo, Polymer Journal,
41(3), 219-227 (2009). “Phase structure and mechanical property of blends
of organosolv lignin alkyl esters with poly(ε-caprolactone)”.
32. 遠藤貴士,シンセシオロジー, 2(4), 310-320 (2009), “バイオ燃料を木材からナ ノテクで生産する”.
33. Seung-Hwan Lee, Siqun Wang, Takashi Endo, Nam-Hun Kim, Holzforschung,
63, 240-247 (2009), “Visualization of interfacial zones in lyocell fiber-reinforced
polypropylene composite by AFM contrast imaging based on phase and thermal
conductivity measurements”.
34. Akihiro Hideno, Hiroyuki Inoue, Kenichiro Tsukahara, Shinji Fujimoto,
Tomoaki Mimowa, Seiichi Inoue, Takashi Endo, Shigeki Sawayama, Bioresource
Technology, 100, 2706-2711 (2009).” Wet disk milling pretreatment without
sulfuric acid for enzymatic hydrolysis of rice straw”.
35. Seung-Hwan Lee, Yoshikuni Teramoto, Takashi Endo, Bioresource Technology, 100 275-279 (2009).” Enzymatic saccharification of woody biomass micro/nano-fibrillated by continuous extrusion process I-Effect of additives with cellulose affinity”.
36. Takashi Endo, Synthesiology-English edition, 2(4), (2010).” Bioethanol
production from woods with the aid of nanotechnology”.
37. Seung-Hwan Lee, Fuxiang Chang, Seiichi Inoue, Takashi Endo, Bioresource
Technology, 101, 7218-7223 (2010).” Increase in enzyme accessibility by
generation of nanospace in cell wall supramolecular structure”.
38. Seung-Hwan Lee, Yoshikuni Teramoto, Takashi Endo, Bioresource Technology, 101, 769-774 (2010).” Enhancement of enzymatic accessibility by fibrillation of woody biomass using batch-type kneader with twin-screw elements”.
39. Ayla Sant’Ana da Silva, Hiroyuki Inoue, Takashi Endo, Shinichi Yano,
Elba P.S. Bon, Bioresource Technology, 101, 7402-7409 (2010).” Milling
pretreatment of sugarcane bagasse and straw for enzymatic hydrolysis and
ethanol fermentation”.
40. Seung-Hwan Lee, Seiichi Inoue, Yoshikuni Teramoto, Takashi Endo, Bioresource
Technology, 101, 9645-9649 (2010).”Enzymatic saccharification of woody
biomass micro/nanofibrillated by continuous extrusion process II: Effect
of hot-compressed water treatment”.
41. Guoce Yu, Shinichi Yano, Hiroyuki Inoue, Seiichi Inoue, Takashi Endo, Shigeki Sawayama, Applied Biochemistry and Biotechnology, 160, 539-551 (2010), “Pretreatment of Rice Straw by a Hot-Compressed Water Process for Enzymatic Hydrolysis”.
42. 伊藤 弘和, 服部 英広, 岡本 忠, 遠藤 貴士, 李 承桓, 藤 正督, 寺本 好邦, 吾郷 万里子, 今西 祐志, 高谷 政広,
繊維学会誌,67, 1-7 (2011). “高充填ウッドプラスチックにおけるコンパウンドのフィブリル化処理の効果 (Effect of Fibrillation
on the Performance of Wood-Plastic Composites with High Filler Content)”.
43. Akihiro Hideno, Hiroyuki Inouea, Takashi Yanagida, Kenichiro Tsukahara,
Shinichi Yano, Xu Fang, Takashi Endo, Shigeki Sawayam, Enzyme and microbial
technology, 48, 162-168 (2011).” Production and characterization of cellulases
and hemicellulases by Acremonium cellulolyticus using rice straw subjected
to various pretreatments as the carbon source”.
44. Ayla Sant’Ana da Silva, Seung-Hwan Lee, Takashi Endo, Elba P.S. Bon, Bioresource Technology, 102, 10505-10509 (2011).” Major improvement in the rate and yield of enzymatic saccharification of sugarcane bagasse via pretreatment with the ionic liquid 1-ethyl-3-methylimidazolium acetate ([Emim] [Ac])”.
45. Xiaobo Lin, Min Wu, Dayong Wu, Shigenori Kuga, Takashi Endo, Yong Huang,
Green Chemistry, 13, 283-287 (2011), “Platinum nanoparticles using wood
nanomaterials: eco-friendly synthesis, shape control and catalytic activity
for p-nitrophenol reduction”.
46. Seung-Hwan Lee, Yoshikuni Teramoto, Takashi Endo, Composites Part A:
Applied Science and Manufacturing, 42, 151-156 (2011).” Cellulose nanofiber-reinforced
polycaprolactone/polypropylene hybrid nanocomposite”.
47. Yoshikuni Teramoto, Seung-Hwan Lee, Takashi Endo, Journal of Applied polymer Science, 125(3), 2063-2070 (2012). “Molecular composite of lignin: Miscibility and complex formation of organosolv lignin and its acetates with synthetic polymers containing vinyl pyrrolidone and/or vinyl acetate units”.
48. Fuxiang Chang, Seung-Hwan Lee, Keisuke Toba, Asahiro Nagatani, Takashi
Endo, Wood Science and Technology, 46, 393-403 (2012). “Bamboo nanofiber
preparation by HCW and grinding treatment and its application for nanocomposite”.
49. Akihiro Hideno, Hiroyuki Inouea, Takashi Yanagida, Kenichiro Tsukahara,
Takashi Endo, Shigeki Sawayam, Bioresource Technology, 104, 743-748 (2012).
“Combination of hot compressed water treatment and wet disk milling for
high sugar recovery yield in enzymatic hydrolysis of rice straw”.
50.Toyokazu Miura, Seung-Hwan Lee, Seiichi Inoue, Takashi Endo, Bioresource Technology, 105, 95-99 (2012). “Improvement of enzymatic saccharification of sugarcane bagasse by dilute-alkali-catalyzed hydrothermal treatment and subsequent disk milling”.
51.Toyokazu Miura, Seung-Hwan Lee, Seiichi Inoue, Takashi Endo, Bioresource
Technology, 126, 182-186 (2012). “Combined pretreatment using ozonolysis
and wet-disk milling to improve enzymatic saccharification of Japanese
cedar”.
52. Akihiro Hideno, Ayato Kawashima, Masayoshi Fukuoka, Takashi Endo, Katsuhisa
Honda, Masatoshi Morita, Wood Science and Technology, 47(2), 381-393 (2013),
“Effect of alcohol-based organosolv treatment combined with short-time
ball milling on the enzymatic hydrolysis of Japanese cypress (Chamaecyparis
obtusa)”.
53. Akihiro Hideno, Ayato Kawashima, Takashi Endo, Katsuhisa Honda, Masatoshi Morita, Bioresource Technology, 132, 64-70 (2013). “Ethanol-based organosolv treatment with trace hydrochloric acid improves the enzymatic digestibility of Japanese cypress (Chamaecyparis obtusa) by exposing nanofibers on the surface”.
54. Rodrigo da Rocha Olivieri de Barros, Raquel de Sousa Paredes, Takashi
Endo, Elba Pinto da Silva Bon, Seung-Hwan Lee, Bioresource Technology,
136, 288-294 (2013). “Association of wet disk milling and ozonolysis as
pretreatment for enzymatic saccharification of sugarcane bagasse and straw”.
55. Long Wu, Seung-Hwan Lee, Takashi Endo, Elba Pinto da Silva Bon, Seung-Hwan
Lee, Bioresource Technology, 140, 90-96 (2013). “Effect of dimethyl sulfoxide
on ionic liquid 1-ethyl-3-methylimidazolium acetate pretreatment of eucalyptus
wood for enzymatic hydrolysis”.
56. Ayla Sant’Ana da Silva, Ricardo Sposina Sobral Teixeira, Takashi Endo, Elba P. S. Bon and Seung-Hwan Lee, Green Chemistry, 15(7), 1991-2001 (2013). “Continuous pretreatment of sugarcane bagasse at high loading in an ionic liquid using a twin-screw extruder”.
57. Akio Kumagai, Seung-Hwan Lee, Takashi Endo, Biomacromolecules, 14(7),
2420-2426 (2013). “Thin Film of Lignocellulosic Nanofibrils with Different
Chemical Composition for QCM-D Study”.
58.Thi Thi Nge, Seung-Hwan Lee, Takashi Endo, Cellulose, 20(4), 1841-1852
(2013), “Preparation of nanoscale cellulose materials with different morphologies
by mechanical treatments and their characterization”.
59. Jae-Hyuk Jang, Seung-Hwan Lee, Takashi Endo, Nam-Hun Kim, Wood Science and Technology, 47(5), 925-937 (2013), “Characteristics of microfibrillated cellulosic fibers and paper sheets from Korean white pine”.
60. Ricardo Sposina Sobral Teixeira, Ayla Sant’Ana da Silva, Han-Woo Kim,
Kazuhiko Ishikawa, Takashi Endo, Seung-Hwan Lee, Elba P.S. Bon, Bioresource
Technology, 149, 551-555 (2013)., “Use of cellobiohydrolase-free cellulase
blends for the hydrolysis of microcrystalline cellulose and sugarcane bagasse
pretreated by either ball milling or ionic liquid [Emim][Ac]”.
61. 秀野晃大,川嶋文人,森田昌敏,本田克久,遠藤貴士, 日本エネルギー学会誌, 92, 1197-1204 (2013), “ヒノキ(Chamaecyparis
obtusa )酵素糖化のためのアルカリ- 過酸化水素法の検討/Alkaline-peroxide Treatment for Enzymatic
Hydrolysis of Japanese Cypress (Chamaecyparis obtusa)”.
62. Maki Ishiguro, Takashi Endo, Bioresource Technology, 153, 322-326 (2014), “Addition of alkali to the hydrothermal–mechanochemical treatment of Eucalyptus enhances its enzymatic saccharification”.
63. Shinichiro Iwamoto, Seung-Hwan Lee, Takashi Endo, Polymer Journal,
46, 73-76 (2014)., “Relationship between aspect ratio and suspension viscosity
of wood cellulose nanofibers”.
64. Shinichiro Iwamoto, Shigehiro Yamamoto, Seung-Hwan Lee Takashi Endo,
Composites Part A: Applied Science and Manufacturing, 59, 26-29 (2014),
“Mechanical properties of polypropylene composites reinforced by surface-coated
microfibrillated cellulose”.
65. Akio Kumagai, Shunsuke Kawamura, Seung-Hwan Lee, Takashi Endo, Miguel Rodriguez Jr., Jonathan R. Mielenz, Bioresource Technology, 162, 89-95 (2014), “Simultaneous saccharification and fermentation and a consolidated bioprocessing for Hinoki cypress and Eucalyptus after fibrillation by steam and subsequent wet-disk milling”.
66. Long Wu, Akio Kumagai, Seung-Hwan Lee, Takashi Endo, Bioresource Technology,
162, 207-212 (2014)., “Synergistic effect of delignification and treatment
with the ionic liquid 1-ethyl-3-methylimidazolium acetate on enzymatic
digestibility of poplar wood”.
67.Shinichiro Iwamoto, Shigehiro Yamamoto, Seung-Hwan Lee, Takashi Endo,
Cellulose, 21(3), 1573-1580 (2014), “Solid-state shear pulverization as
effective treatment for dispersing lignocellulose nanofibers in polypropylene
composites”.
68. Lin, Xiaobo, Wang, Fengqi, Kuga, Shigenori, Endo, Takashi, Wu, Min, Wu, Dayong, Huang, Yong, Cellulose, 21(4), 2489- 2496 (2014), “Eco-friendly synthesis and antibacterial activity of silver nanoparticles reduced by nano-wood materials”.
69. Akio Kumagai, Shinichiro Iwamoto, Seung-Hwan Lee, Takashi Endo, Cellulose,
21(3), 2433- 2444 (2014), “Quartz crystal microbalance with dissipation
monitoring of the enzymatic hydrolysis of steam-treated lignocellulosic
nanofibrils”.
70.Guoce Yu, Shinichi Yano, Hiroyuki Inoue, Seiichi Inoue, Jianlong Wang,
Takashi Endo, Applied Biochemistry and Biotechnology, 174(6), 2278-2294
(2014), “Structural Insights into Rice Straw Pretreated by Hot-Compressed
Water in Relation to Enzymatic Hydrolysis”.
71. Shinichiro Iwamoto, Shigehiro Yamamoto, Seung-Hwan Lee, Hirokazu Ito, Takashi Endo, Materials, 7(10), 6919-6929 (2014), “Mechanical and Thermal Properties of Polypropylene Composites Reinforced with Lignocellulose Nanofibers Dried in Melted Ethylene-Butene Copolymer”.
72. Shou Hiasa, Shinichiro Iwamoto, Takashi Endo, Edashige Yusuke, Industrial
Crops and Products, 62, 280- 285 (2014), “Isolation of cellulose nanofibrils
from mandarin (Citrus unshiu) peel waste”.
73. Maki Ishiguro, Takashi Endo, Bioresource Technology, 177, 298-301 (2015),
“Effect of the addition of calcium hydroxide on the hydrothermal-mechanochemical
treatment of Eucalyptus”.
74. Akio Kumagai, Long Wu, Shinichiro Iwamoto, Seung-Hwan Lee, Takashi Endo, Miguel Rodriguez, Jr., Jonathan R. Mielenz, Renewable Energy, 76, 782–789 (2015), “Improvement of enzymatic saccharification of Populus and switchgrass by combined pretreatment with steam and wet disk milling”.
75. Shinichiro Iwamoto, Takashi Endo, ACS Macro letters, 4(1), 80-83 (2015),
“3nm Thick Lignocellulose Nanofibers Obtained from Esterified Wood with
Maleic Anhydride”.
76. Shou Hiasa, Akio Kumagai, Takashi Endo, Yusuke Edashige, Journal of
Fiber Science and Technology, 72(1), 17- 26 (2016), “Aggregation inhibition
of pectin-containing cellulose nanofibers (CNFs) prepared from mandarin
peel”.
77. Akio Kumagai, Seung-Hwan Lee, Takashi Endo, Biotechnology and Bioengineering, 113(7), 1441- 1447 (2016), “Evaluation of the effect of hot-compressed water treatment on enzymatic hydrolysis of lignocellulosic nanofibrils with different lignin content using a quartz crystal microbalance”.
78. Michiko Shimizu, Tsuguyuki Saito, Yoshiharu Nishiyama, Shinichiro Iwamoto,
Hiroyuki Yano, Akira Isogai, Takashi Endo, Macromolecular Rapid Communications,
37(19), 1581-1586 (2016), “Fast and Robust Nanocellulose Width Estimation
Using Turbidimetry”.
79. Ryosuke Kobe, Shinichiro Iwamoto, Takashi Endo, Kouzou Yoshitani, Yoshikuni
Teramoto, Polymer, 97, 480-486 (2016), “Stretchable composite hydrogels
incorporating modified cellulose nanofiber with dispersibility and polymerizability:
Mechanical property control and nanofiber orientation”.
80. 伊藤弘和, 大峠慎二, 岡本真樹, 鈴木滋彦, 小島陽一, 小堀 光, 伊佐 亜希子, 遠藤貴士, 木材学会誌,63(3),131-136 (2017), “フィブリル化木粉の性状とフィブリル化木粉を利用したウッドプラスチックの特性”.
81. Saori Niwa, Yasuko Saito, Mizuki Ito, Shinji Ogoe, Hirokazu Ito, Yuta
Sunaga, Kenji Aoki, Takashi Endo, Yoshikuni Teramoto, Polymer, 125, 161-171
(2017), “Direct spectroscopic detection of binding formation by kneading
of biomass filler and acid-modified resin”.
82. Akio Kumagai, Takashi Endo, Cellulose, 25(7), 3885- 3897 (2018), “Comparison
of the surface constitutions of hemicelluloses on lignocellulosic nanofibers
prepared from softwood and hardwood”.
83. Yasuko Saito, Takashi Endo, Daisuke Ando, Fumiaki Nakatsubo, Hiroyuki
Yano, Cellulose, 25(11), 6319- 6331(2018), “Influence of drying process
on reactivity of cellulose and xylan in acetylation of willow (Salix schwerinii
E. L. Wolf) kraft pulp monitored by HSQC-NMR spectroscopy”.
84. Akio Kumagai, Naoko Tajima, Shinichiro Iwamoto, Takahiro Morimoto,Asahiro
Nagatani,Toshiya Okazaki, Takashi Endo, International Journal of Biological
Macromolecules, 121, 989-995 (2019), “Properties of natural rubber reinforced
with cellulose nanofibers based on fiber diameter distribution as estimated
by differential centrifugal sedimentation”.
85.熊谷明夫,遠藤貴士,足立真希、紙パ技協誌、73(5),66-73(2019).“沈降法によるセルロースナノファイバーの評価”.
86. Akio Kumagai, Maki Adachi, Takashi Endo, Japan TAPPI journal,73(5),57-65(2019). “Evaluation of Cellulose Nanofibers by Using Sedimentation Method”.
87. Shinichiro Iwamoto, Yasuko Saito, Tatsuo Yagishita, Akio Kumagai, Takashi
Endo, Cellulose, 26(8),
4721- 4729 (2019), “Role of moisture in esterification of wood and stability
study of ultrathin lignocellulose nanofibers”.
88. Haoyi Wu, Zheng-Ming Wanga, Akio Kumagai, Takashi Endo,Composites Science and Technology 171, 190–198 (2019).“Amphiphilic cellulose nanofiber-interwoven graphene aerogel monolith for dyes and silicon oil removal”.
89. Yuki Sugiura, Yasuko Saito, Takashi Endo, Yoji Makita, Crystal Growth
& Design,19(7), 4162-4171 (2019). “Effect of the Ionic Radius of Alkali
Metal Ions on Octacalcium Phosphate Formation via Different Substitution
Modes”.
90. Danni Yang, Jie Liu, Zheng-Ming Wang, Akio Kumagai, Takashi Endo, Hua-Qiang
Yin, and Fu-Sheng Wei, ACS Omega 4(8), 12995-13004 (2019). “Cellulose-Nanofiber-Mediated
Sorption-Benefitting Holed Silicalite‑1 Crystals”.
91. Nobuki Katsu, Takashi Endo, Yoshikuni Teramoto, Cellulose, 27, 41-56(2020), “Evaluation of the average state of carbohydrate/lignin coexistence in wood by analysis of molecular motion”.
92. Yasuko Saito, Shinichiro Iwamoto, Naoya Hontama, Yuki Tanaka, Takashi
Endo, Cellulose, 27, 3153–3165(2020), “Dispersion of quinacridone pigments
using cellulose nanofibers promoted by CH–π interactions and hydrogen bonds”.
93. Song-Yi Han, Chan-Woo Park, Takashi Endo, Fauzi Febrianto, Nam-Hun
Kim, Seung-Hwan Lee, Wood Science and Technology, 54, 599- 613 (2020),
“Extrusion process to enhance the pretreatment effect of ionic liquid for
improving enzymatic hydrolysis of lignocellulosic biomass”
94. Akio Kumagai, Takashi Endo, Cellulose Chemistry and Technology, 56(5-6),
415- 419 (2020), “Tannic acid-immobilized cellulose nanofiber prepared
by esterification using polycarboxylic acid”
95. Haoyi Wu, Tomohiro Inab, Zheng-Ming Wang, Takashi Endo, Applied Catalysis
B: Environmental, 276, 119111 (2020), “Photocatalytic TiO2@CS-embedded
cellulose nanofiber mixed matrix membrane”
96. Akio Kumagai, Takashi Endo, Cellulose, 28(1), 259–271(2021), “Effects of hemicellulose composition and content on the interaction between cellulose nanofibers”
97. Yasuko Saito, Shinichiro Iwamoto, Yuki Tanaka, Naoya Hontama, Takashi
Endo, Carbohydrate Polymers, 255, 117365 (2021), “Suppressing aggregation
of quinacridone pigment and improving its color strength by using chitosan
nanofibers”
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