学術論文
2024
[1] Effects of
different types of functionalized polypropylenes on the tensile strength of
short carbon fiber-reinforced polypropylene composites, A. Yamaguchi, H.
Uematsu, T. Sakaguchi, T. Hashimoto, Polym.
J., 56, 205
(2024).
2023
[1] Reusable,
ultrasensitive, patterned conjugated polyelectrolyte−surfactant complex film
with a wide detection range for copper ion detection, Y.-J. Jin, B.-M. Si, E.
Kim, J. Lee, H. Kim, G. Kwak, T. Sakaguchi, J. Lee, I. Y. Song, C.-L. Lee, J.
H. Kim, K. Heo, W.-E. Lee, ACS Appl. Mater.
Interfaces, 15, 12339-12349
(2023).
[2]
Effects of different types of maleic anhydride-modified
polypropylene on the interfacial shear strengths of carbon fiber
fiber-reinforced polypropylene composites, A. Yamaguchi, M. Urushisaki,
H. Uematsu, T. Sakaguchi, T. Hashimoto, Polym.
J., 55, 153-161 (2023).
[3] Gas-permeable fluorine-substituted poly(diphenylacetylene)s: Effect
of number and position of fluorine atoms on gas permeability, T. Sakaguchi, M.
Kuroiwa, T.
Hashimoto, Polymer, 283, 126264
(2023).
[4] Solvent-dependent fluorescence behavior and water detection
sensor application of visible light-emitting fluorenone derivative, J.
Lee, H. Kim, T. Sakaguchi, G. Kwak, J.
Fluorescence (2023).
2022
[1]
Effect of methyl group on gas permeability
of trimethylsilyl-containing poly(diphenylacetylene)s, T. Sakaguchi, K. Kuratani, T.
Hashimoto, Polymer, 255, 125138
(2022).
[2]
Syntheses of poly(vinyl ether)s containing hydroxyurethanes
by reaction of cyclic carbonate with alkanolamines and their
characterization, T. Namikoshi, T. Hashimoto, N. Shikano, M. Urushisaki,
T. Sakaguchi, Polym. Bull., 80, 3689-3701
(2022).
[3]
Novel degradable acetal-linkage-containing epoxy resins with
high thermal stability: synthesis and application in carbon fiber-reinforced
plastics, M. Kuroyanagi, A. Yamaguchi, T. Hashimoto, M. Urushisaki, T.
Sakaguchi K. Kawabe, Polym. J., 54, 313-322
(2022).
2021
[1] Ultrahigh
oxygen permeability of the desilylated
membranes of halogen-containing diphenylacetylene
copolymers, Y. Lin, T. Sakaguchi, T. Hashimoto, J. Membr.
Sci., 628 , 119272 (2021).
[2]
Synthesis of gas-permeable
membranes
via
crosslinking of poly(diphenylacetylene)s by cationic polymerization
and radical coupling of side chains, T. Sakaguchi, J.
Minami, T. Hashimoto, Polymer, 228, 123893 (2021).
[3]
Imidazolium-based
diphenylacetylene copolymers with excellent carbon dioxide/nitrogen and
oxygen/nitrogen gas separation performance, Y. Lin, T. Sakaguchi, T.
Hashimoto, J. Membr. Sci., 637, 119638
(2021).
[4]
Synthesis of poly[1-phenyl-2-(fluoren-2-yl)acetylene]s
bearing trimethylsilyl groups at the fluorene 9-position to give highly
gas-permeable polymer membranes, Y. Lin, T. Sakaguchi, T. Hashimoto,
Polymer, 230 ,
124087 (2021).
[5] Development of highly gas-permeable polymers by
metathesis copolymerization of 1-(p-trimethylsilyl)phenyl-1-propyne
with tert
-butyl and silyl group-containing diphenylacetylenes, Y. Lin, J. Dong, T.
Sakaguchi, T. Hashimoto, RSC Adv., 11, 32419-32424 (2021).
[6] Synthesis
of poly(vinyl ether) with pendant phenol groups through cationic
polymerization of 2-(4-acetoxyphenoxy)ethyl vinyl ether, T. Namikoshi, Md. S.
Rahman, T. Hashimoto, Macromol. Res., 29, 505-508 (2021).
2020
[1]
Desilylation of copolymer membranes composed of
poly[1-(p
-trimethylsilyl)phenyl-2-(ptrimethylsilyl)phenylacetylene] for
improved gas permeability, Y. Lin, T. Sakaguchi, T.
Hashimoto, RSC Adv., 10, 14637-14643
(2020).
[2]
Synthesis and gas
permeability of methylol-group-containing poly(diphenylacetylene)s with high
CO2 permeability and permselectivity, T. Sakaguchi, A. Takeda, T.
Hashimoto, Polymer, 190, 122230 (2020).
[3]
Investigation of interfacial adhesion of telechelic
polypropylenes for carbon fiber-reinforced plastics, A. Yamaguchi, T.
Hashimoto, H. Uematsu, M. Urushisaki, T. Sakaguchi, A. Takamura, D. Sasaki,
Polym. J., 52 , 413-419 (2020).
[4]
Excellent
permselective membranes of diphenylacetylene copolymers with hydroxy groups,
Y. Lin, T. Sakaguchi, T. Hashimoto, Polymer, 207,
122926 (2020).
[5]
Metathesis polymerization of monomers containing two
diphenylacetylene units: synthesis and properties of poly(diphenylacetylene)s
bearing diphenylacetylene units on the side chain, T. Sakaguchi, H. Shimada,
T. Hashimoto, Polym. Chem., 11, 6471-6478
(2020).
[6]エポキシ基を有する種々のビニルエーテルとN-フェニルマレイミドのラジカル共重合による新規エポキシ樹脂の合成とその硬化物の物性,漆ア美智遠,
橋本 保, 阪口壽一,J.
Fiber Sci. Technol.,76, 351-358
(2020).
[7]
Extremely high gas permeability of naphthyl group-containing
diphenylacetylene copolymers, Y. Lin, T. Sakaguchi, T. Hashimoto,
Polymer, 212, 123305 (2020).
2019
[1] Synthesis of
high-molecular-weight star-shaped cyclopolymers of
divinyl ethers and their network membranes via controlled cationic
cyclopolymerization, T. Yamamoto, T. Hashimoto, M. Urushisaki, T.
Sakaguchi, Polym.
J., 51, 1273-1285
(2019).
[2] Preparation of
carbon fibers coated with epoxy sizing agents containing degradable acetal
linkages and synthesis of carbon fiber-reinforced plastics (CFRPs) for
chemical recycling, R. Aoki, A. Yamaguchi, T. Hashimoto, M.
Urushisaki, T. Sakaguchi, K. Kawabe, K. Kondo, H.
Iyo, Polym.
J., 51, 909-920 (2019).
[3]
Synthesis of
chitosan-graft-poly(vinyl ether) as a thermoresponsive water-soluble chitosan,
T. Namikoshi, K. Hisada, T. Sakaguchi, T. Hashimoto, J. Fiber Sci. and
Tech., 75, 193-199
(2019).
[4]ジビニルエーテルの環化重合:かさ高い置換基の導入と星型ポリマー化による高分子量環化ポリマーの合成,丹羽貴大,
山本和史, 橋本 保, 漆ア美智遠, 阪口壽一,高分子論文集, 76,216-225 (2019).
[5]エポキシ基を有するビニルエーテルとN-フェニルマレイミドのラジカル共重合による新規エポキシ樹脂の合成,漆ア美智遠,
橋本 保, 阪口壽一,高分子論文集, 76, 98-107 (2019).
2018
[1] Gas permeability
of mixed matrix membranes composed of poly(diphenylacetylene)s and dispersed
metal chloride particles, T. Sakaguchi, S. Nakao, S. Irie, T.
Hashimoto, Polymer, 140, 208-214 (2018).
[2]
Synthesis
and CO2 permeation properties of novel sulfonium-substituted
poly(diphenylacetylene)s, T. Sakaguchi, S. Kaji, T.
Hashimoto, Polym. Bull., 75, 3011-3022 (2018).
2017
[1] Enhancement of
oxygen permeability by copolymerization of silyl group-containing
diphenylacetylenes with tert-butyl group-containing diphenylacetylene and
desilylation of copolymer membranes, T. Sakaguchi, Y. Lin, T.
Hashimoto, RSC Adv., 7,
30949-40955 (2017).
[2]
Development of recyclable carbon
fiber-reinforced plastics (CFRPs) with controlled degradability and stability
using acetal linkage-containing epoxy resins, Y. Kakichi, A. Yamaguchi, T.
Hashimoto, M. Urushisaki, T. Sakaguchi, K. Kawabe, K. Kondo, H. Iyo,
Polym. J., 49, 851-859 (2017).
[3]
Enhancement
of CO2 permeability of poly(vinyl ether)s having oxyethylene chains by the
sequence control of crosslinking sites, T. Sakaguchi, S.
Yamazaki, T. Hashimoto, RSC Adv., 7,
13879-13885 (2017).
[4]
Crosslinked membranes of poly(vinyl ether)s
having oxyethylene side chains: The effects of the side chain length and the
crosslinkable group on CO2 permeability, T. Sakaguchi, S.
Yamazaki, T. Hashimoto, Polymer, 112,
278-287 (2017).
[5]
Carbon dioxide-permselective polymer membranes
composed of poly(vinyl ether)-based, ABA-type triblock copolymers with pendant
oxyethylene chains, T. Sakaguchi, R. Okunaga, S. Irie, M.
Urushisaki, T. Hashimoto, Polym.
Bull., 74, 2017-2031 (2017).
[6]ジビニルエーテルのリビング環化重合:モノマー逐次添加と星型ポリマー化による高分子量環化ポリマーの合成,丹羽貴大,橋本保,漆ア美智遠,阪口壽一,高分子論文集, 74, 215-224 (2017).
[7]高靭性と易分解性を備えたアセタール結合含有CFRP用マトリックスエポキシ樹脂硬化物の開発,垣地良紀,橋本保,山口綾香,漆ア美智遠,阪口壽一,川邊和正,近藤慶一,伊與寛史,高分子論文集, 74, 208-214 (2017).
[8]エチレンスルホン酸ナトリウムの無触媒重合,小川幸大,橋本保,漆ア美智遠,阪口壽一,高分子論文集,
74,134-138(2017).
2016
[1] Vinyl
ether-based polyacetal polyols with various main-chain structures and
polyurethane elastomers prepared therefrom: Synthesis, structure, and
functional properties, A. Iinuma, M. Urushisaki, T. Hashimoto,
T. Sakaguchi, J. Appl. Polym. Sci., 44088
(2016).
[2]
Synthesis and emission properties of
poly(diphenylacetylene)s having various aromatic rings, S. Azuma, T.
Sakaguchi, T. Hashimoto, Polymer, 92
, 18-24 (2016).
[3]オキシエチレン鎖を有する星型ジブロックコポリビニルエーテルの気体透過性,
奥永陵樹,橋本保,漆ア美智遠,阪口壽一,高分子論文集, 73,333-336
(2016).
[4]
エステル,ヒドロキシ基,メルカプト基を有するポリ(ジフェニルアセチレン)の合成および二酸化炭素透過性,加治進太郎,阪口壽一,橋本保,高分子論文集,
73,326-329
(2016).
[5]
側鎖に官能基を有する星型ポリビニルエーテルポリオールの合成とそれによる機能性架橋ポリウレタンの開発,橋本保,大橋大地,飯沼篤,徳永理子,漆ア美智遠,阪口壽一,高分子論文集,
73,310-318
(2016).
[6]
電子供与基および電子求引基を側鎖に有するポリ(ジフェニルアセチレン)の合成および発光特性,東信夫,阪口壽一,橋本保,高分子論文集,
73,302-309
(2016).
[7]
高接着性と易リサイクル接合を両立するアセタール結合含有エポキシ樹脂:
炭素繊維との接着性,山口綾香,橋本保,垣地良紀,漆ア美智遠,阪口壽一,高分子論文集,
73,244-251
(2016).
[8]ポリスチレン熱分解生成物スチレン二量体およびスチレントリマーとN-置換マレイミドとのラジカル交互共重合,木村貴裕,橋本保,漆ア美智遠,阪口壽一,澤口孝志,佐々木大輔,高分子論文集,
73,124-133
(2016).
[9]
剛直な置換基を有するフェノール樹脂骨格からなるアセタール結合含有エポキシ樹脂の合成とその硬化物の分解性,垣地良紀,橋本保,山口綾香,漆ア美智遠,阪口壽一,川邊和正,近藤慶一,伊與寛史,高分子論文集,
73,108-115
(2016).
[10]
Metathesis
polymerzation of diphenylacetylenes possessing electron-donating and
electron-withdrawing groups and emissino properties of polymers, T. Sakaguchi,
S. Azuma, T. Hashimoto, Synth. Met.,
121
,
174-179 (2016).
2015
[1] Synthesis
of poly(vinyl ether)-based, ABA triblock-type thermoplastic elastomers with
functionalized soft segments and their gas permeability, T. Hashimoto, T.
Imaeda, S. Irie, M. Urushisaki, T. Sakaguchi, J.
Polym. Sci., Part A: Polym. Chem., 53
(9), 1114-1124
(2015).
[2]
Star-shaped
cyclopolymers: A new category of star polymer with rigid cyclized arms
prepared by controlled cationic cyclopolymerization and subsequent microgel
formation of divinyl ethers, T.
Hashimoto, H. Matsui, M. Urushisaki, T.
Sakaguchi,
J. Polym. Sci.,
Part A: Polym. Chem., 53
(9), 1094-1102
(2015).
[3] Recyclable carbon fiber-reinforced plastics (CFRP)
containing degradable acetal linkages: Synthesis, properties, and chemical
recycling, A. Yamaguchi, T. Hashimoto, Y. Kakichi, M.
Urushisaki, T. Sakaguchi, K. Kawabe, K. Kondo, H.
Iyo, J. Polym. Sci., Part A: Polym. Chem.,
53
(8), 1052-1059
(2015).
[4]
Polycondensation of di- and tetra-substituted
dibromobenzenes for synthesis of poly(p-phenylene)s having alkoxy groups and
gas permeability of membranes, T. Sakaguchi, T. Nakano, S.
Tominaga, T. Hashimoto, Polym. J., 47
(5), 362-368 (2015).
[5]
ポリスチレン熱分解生成物スチレン二量体およびスチレントリマーと無水マレイン酸とのラジカル交互共重合, 木村貴裕, 橋本保,
漆ア美智遠, 阪口壽一, 澤口孝志, 佐々木大輔, 高分子論文集,72,
155-164 (2015).
[6]
種々の三官能性ポリアセタールポリオールとそれによる分解・リサイクル性架橋ポリウレタンの合成, 飯沼篤, 橋本保, 漆ア美智遠,
阪口壽一, 高分子論文集,72, 7-15
(2015).
2014
[1] Synthesis and gas permeability of nitrated and
aminated poly(diphenylacetylene)s, T. Sakaguchi, Y. Shinoda, T.
Hashimoto, Polymer, 55
(26),
6680-6685 (2014).
[2]
Synthesis of
poly(diphenylacetylene)s bearing various polar groups and their gas
permeability, T.
Sakaguchi, T.
Hashimoto,
Polym. J.,
46 (7),
391-398 (2014).
[3]イミダゾリウム塩を含むポリ(ジフェニルアセチレン)の合成と気体透過性に及ぼす対アニオンの影響,伊藤飛生馬,阪口壽一,橋本保,高分子論文集,71(7), 334-337 (2014).
[4]
テトラエチレングリコールとメタクリレートを有するビニルエーテルコポリマー膜の二酸化炭素透過選択性,阪口壽一,桂文也,橋本保,高分子論文集,71 (5), 258-260
(2014).
[5]
ポリテトラヒドロフランアイオネンの気体透過性と二酸化炭素分離膜としての評価,橋本保,蓑輪岳郎,大橋大地,漆ア美智遠,阪口壽一,高分子論文集,
71 (5), 255-257
(2014).
[6]
ヒドロキシ末端テレケリックポリ(2-アダマンチルビニルエーテル)の合成,浪越毅,橋本保,牧野祐介,奥永陵樹,漆ア美智遠,阪口壽一,高分子論文集, 71(4),
143-148 (2014).
.
[7]
Synthesis and properties of
poly(2-adamantyl vinyl ether)-based optical plastics, T. Namikoshi, T.
Hashimoto, Y. Makino, T. Imaeda, M. Urushisaki, T.
Sakaguchi, Polym. Bull., 71
(6),
1389-1402 (2014).
[8] Synthesis, gas permeability, and
metal-induced gelation of poly(disubstituted acetylene)s having
p,m-dimethoxyphenyl and p,m-dihydroxyphenyl
groups, T.
Sakaguchi, T.
Tsuzuki, T. Masuda, T. Hashimoto,
Polymer, 55
(8), 1977-1983 (2014).
[9] CO2-permselective membranes of crosslinked poly(vinyl
ether)s bearing oxyethylene chains,
T. Sakaguchi, F. Katsura, T.
Hashimoto,
Polymer, 55 (6), 1459-1466
(2014).
2013
[1]分解性エポキシ樹脂開発のためのヘミアセタールエステル結合を有する多官能性モノマーの合成と重合,水口順子,橋本保,漆ア美智遠,阪口壽一,高分子論文集,
70(10), 602-608
(2013).
[2]
Highly
CO2-permeable and -permselective poly(diphenylacetylene)s having imidazolium
salts: Synthesis, characterization, gas permeation properties, and effects of
counter anion, T. Sakaguchi, H. Ito, T.
Masuda, T. Hashimoto, Polymer,
54
(25), 6709-6715
(2013).
[3]
Synthesis of silyl-disubstituted
poly(p-phenylenevinylene) membranes and their gas
permeability, T. Sakaguchi, M. Sato, T.
Hashimoto, Polymer, 54
(9), 2272-2277
(2013).
[4]
Cationic cyclopolymerization
of divinyl ethers with norbornane-, norbornene-, or adamantane-containing
substituents: Synthesis of cyclopoly(divinyl ether)s with bulky rigid side
chains leading to high glass transition temperature, K. Morita, T.
Hashimoto, M. Urushisaki, T. Sakaguchi, J. Polym. Sci.,
Part A: Polym. Chem., 51
(11), 2445-2454
(2013).
[5]
Synthesis of ABA-triblock and star-diblock copolymers with
poly(2-adamantyl vinyl ether) and poly(n-butyl vinyl ether) segments: New
thermoplastic elastomers composed solely of poly(vinyl ether) backbones, T.
Imaeda, T. Hashimoto, S. Irie, M. Urushisaki, T.
Sakaguchi, J. Polym. Sci., Part A: Polym. Chem.,
51
(8), 1796-1807
(2013).
2012
[1] A series of poly(diphenylacetylene)s
bearing sulfonic acids: Synthesis, characterization, and gas permeability, T.
Sakaguchi, Y. Shinoda, T. Hashimoto, Polymer,
53
(23), 5268-5274
(2012).
[2]
Synthesis and photoluminescence properties of
heterocycle-containing poly(diphenylacetylene)s, T. Muroga, T.
Sakaguchi, T. Hashimoto, Polymer, 53
(20), 4380-4387 (2012).
[3]
Degradable and chemically recyclable epoxy resins
containing acetal linkages: Synthesis, properties, and application for carbon
fiber-reinforced plastics, T. Hashimoto, H. Meiji, M.
Urushisaki, T. Sakaguchi, K. Kawabe, C. Tsuchida, K.
Kondo, J. Polym. Sci., Part A: Polym. Chem.,
50
(17), 3674-3681
(2012).
[4]
Synthesis of poly(vinyl ether) optical plastics by
cationic copolymerization of tricyclodecane vinyl ether with functionalized
vinyl ethers, T. Namikoshi, T. Hashimoto, M. Urushisaki, T.
Sakaguchi, J. Appl. Polym. Sci., 126
(S2), E307-E314 (2012).
[5]
Synthesis and gas permeability of membranes of
poly(vinyl ether)s bearing oxyethylene segments, T. Sakaguchi, M.
Ohashi, K. Shimada, T. Hashimoto, Polymer,
53
(8),
1659-1664 (2012).
[6]
Synthesis and photoluminescence properties of
poly(1-hexyl-2-arylacetylene)s, poly(1-phenyl-2-fluorenylacetylene), and
poly(1-fluorenyl-2-fluorenylacetylene), T. Sakaguchi, Y.
Hayakawa, R. Ishima, T. Hashimoto, Synth. Met.,
162 (1-2), 64-69 (2012).
2011
[1]
Highly
gas-permeable silanol-functionalized poly(diphenylacetylene)s: Synthesis,
characterization, and gas permeation property, T. Sakaguchi, A.
Takeda, T. Hashimoto, Macromolecules,
44
(17),
1810-1817 (2011).
[2]
Synthesis of
poly(p-phenyleneethynylene)s bearing oligo-ethylene
glycols and their gas permeation properties, T. Sakaguchi, K. Sanada, T.
Hashimoto, Polym. Bull., 67
(4), 583-592 (2011).
[3]種々の極性置換基を有する新規ポリ(パラフェニレンエチニレン)膜の合成とその気体透過性,眞田耕大,阪口壽一,橋本保,高分子論文集,68 (4),182-189
(2011).
[4] Synthesis and gas permeability of
poly(p-phenyleneethynylene)s having bulky
alkoxy or alkyl groups, T. Sakaguchi, K. Sanada, C.
Nakasuji, T. Hashimoto, Polym. Bull.,
66
(9), 1177-1189 (2011).
[5]
Synthesis and gas permeability of
ester-substituted poly(p-phenylene)s, T. Sakaguchi, S.
Tominaga, T. Hashimoto, Polymer, 52
(10),
2163-2169 (2011).
2010
[1] Novel
poly(diphenylacetylene)s with both alkyl and silyl groups as gas permeable
membranes: Synthesis, desilylation, and gas permeability, A.
Takeda, T. Sakaguchi, T. Hashimoto, Polymer,
51
(6), 1279-1284
(2010).
[2] Synthesis
of gas permeability of membranes of silyl-substituted
poly(p-phenylenevinylene)s, T. Sakaguchi, Y.
Koide, T. Hashimoto, J. Appl. Polym. Sci.,
117
(4), 2009-2015 (2010).
[3] Synthesis of poly(vinyl ether)
polyols with pendant oxyethylene chains and properties of hydrophilic,
thermo-responsive polyurethanes prepared therefrom,
T. Hashimoto, A. Takahashi, M. Urushisaki, T.
Sakaguchi, J. Polym. Sci., Part A: Polym. Chem.,
48
(7), 1641-1648
(2010).
[4] Living/controlled cationic
cyclopolymerization of divinyl ether with a cyclic acetal
moiety: Synthesis of poly(vinyl ether)s with high glass transition
temperature based on incorporation of cyclized main chain and cyclic side
chains, T. Hashimoto, H. Takagi, Y. Hasegawa, H.
Matsui, M. Urushisaki, T. Sakaguchi, J. Polym. Sci., Part
A: Polym. Chem., 48
(4), 952-958 (2010).
[5]ポリスチレンの熱分解生成物スチレントリマーのラジカル重合:単独重合とスチレンとの共重合の可能性,小原正之,橋本保,漆崎美智遠,阪口壽一,澤口孝志,佐々木大輔,高分子論文集,67 (2),143-146
(2010).
2009
[1]ポリスチレンの熱分解生成物スチレン二量体のラジカル重合およびスチレンとのラジカル共重合,小原正之,橋本保,漆崎美智遠,阪口壽一,澤口孝志,佐々木大輔,高分子論文集,66 (11),498-502 (2009).
[2]ポリスチレン熱分解生成物スチレン二量体とスチレントリマーのカチオン重合,小原正之,橋本保,漆崎美智遠,阪口壽一,澤口孝志,佐々木大輔,高分子論文集,66 (11),483-490 (2009).
[3] Synthesis of novel
poly(diphenylacetylene)s with both trimethylsilyl and alkyl groups: The effect
of desilylation on
gas permeability, A. Takeda, T. Sakaguchi, T.
Hashimoto, Polymer, 50
(21), 5031-5036 (2009).
[4] Synthesis of sulfonated
poly(diphenylacetylene)s with high CO2 permselectivity, T. Sakaguchi, K.
Kameoka, T. Hashimoto, J. Polym. Sci., Part A: Polym.
Chem., 47
(23), 6463-6471
(2009).
[5] Synthesis of membranes of
poly(vinyl ether)s and their gas permeability, T. Sakaguchi, Y.
Koide, T. Hashimoto, J. Appl. Polym. Sci.,
114
(4), 2339-2343 (2009).
[6] Synthesis of PEG-functionalized
poly(diphenylacetylene)s and their gas permeation properties, T.
Sakaguchi, K. Kameoka, T. Hashimoto, J. Appl. Polym.
Sci., 113
(6), 3504-3509 (2009).
~2008
[1] アセタール結合を有するポリウレタンフォームの合成とそのケミカルリサイクル,橋本保,高分子,57 (5),350-353 (2008).
[2] 新しいケミカルリサイクル性ポリマーの開発,橋本保,ケミカルエンジニヤリング,53 (1),41-45 (2008).
[3] Synthesis and gas
permeability of novel poly(diphenylacetylenes) having polyethylene glycol
moieties, T. Sakaguchi, K. Kameoka, T. Hashimoto, Polym.
Bull., 60
(4),
441-448 (2008).
[4] Living cationic polymerization
of 2-adamantyl vinyl ether, T. Hashimoto, Y. Makino, M.
Urushisaki, T. Sakaguchi, J. Polym. Sci., Part A: Polym.
Chem., 46
(5), 1629-1637
(2008).
[5] Poly(tetramethylene ether)glycol containing acetal
linkages: New PTMG-based polyol for chemically
recyclable polyurethane thermoplastic elastomer, T. Hashimoto, H.
Mori, M. Urushisaki, J. Polym. Sci., Part A: Polym. Chem.,
46
(5), 1893-1901 (2008).
[6] Synthesis and microphase-separatied structure of
poly(tricyclodecyl vinyl ether)-block-poly(n-butyl vinyl ether)-
block-poly(tricyclodecyl vinyl ether): New
triblock copolymer as thermoplastic elastomer composed solely of poly(vinyl ether)
backbones, T. Hashimoto, T. Namikoshi, S. Irie, M.
Urushisaki, T. Sakaguchi, T. Nemoto, S. Isoda, J.
Polym. Sci., Part A: Polym. Chem., 46
(5), 1902-1906 (2008).
[7] Gas permeation properties of
poly(2,5-dialkyl-p -phenyleneethynylene)
membranes, T. Sakaguchi, D. Nojiri, T.
Hashimoto, Polym. Bull., 60
(2-3), 271-279 (2008).
[8]分解性ポリアセタールソフトセグメントを有する熱可塑性ポリウレタンエラストマーの合成と性質,橋本保,三澤蔵充,漆崎美智遠,高分子論文集,65
(2),178-184
(2008).
[9] Living cationic polymerizaton
of vinyl ether with a cyclic acetal group, T. Namikoshi, T.
Hashimoto, M. Urushisaki, J. Polym. Sci., Part A: Polym.
Chem., 45
(20), 4855-4866
(2007).
[10] Synthesis of poly(vinyl
ether) plastics for optical use by cationic copolymerization of tricyclodecyl
vinyl ether
with
n-butyl vinyl ether, T. Namikoshi, T.
Hashimoto, M. Urushisaki, J. Polym. Sci., Part A: Polym.
Chem., 45
(18), 4389-4393
(2007).