Eishun Tsuchida
Waseda University
858 Papers
11.1K Citations
Eishun Tsuchida is an academic researcher from Waseda University. The author has contributed to research in topics: Polymerization & Vesicle. The author has an hindex of 62, co-authored 858 publications. Previous affiliations of Eishun Tsuchida include Gulf Coast Regional Blood Center & University of Graz.
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Papers
Magnetic and electrical properties of poly(3-radical-substituted thiophene)s
TL;DR: In this article, the 3-position of thiophene was introduced at the 3 position of the polythiophene, and the derivatives were then polymerized to yield poly(3-radical-substituted thiophenes)s.
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Poly(ethylene glycol)-conjugated human serum albumin including iron porphyrins: surface modification improves the O2-transporting ability.
TL;DR: Artificial O2-carrying hemoprotein composed of human serum albumin including tetrakis(o-amidophenyl)porphinatoiron(II) (Fe4P or Fe3P) has been modified by maleimides- or succinimide-terminated poly(ethylene glycol) (PEG), and the formed PEG bioconjugates have been physicochemically characterized.
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Effects of macromolecular matrix on the process of radical polymerization of ionizable monomers
Eishun Tsuchida,Yoshihito Osada +1 more
TL;DR: In this article, the authors studied the polymerization of methacrylic acid (MAA) and acrylic acid (AA) in the presence of a positively charged macromolecular matrix.
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Novel effect of neighboring groups on the quenching of the excited state of a polymer-pendant Ru(bpy)32+ by methyl viologen
TL;DR: In this paper, a polymer-pendant tris(2,2'-bipyridine)ruthenium(II) complex was prepared from the copolymer of 4-methyl-4'-vinyl-2-2'-binaridine and acrylic acid, and the quenching of its excited state by methylviologen was studied.
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Human serum albumin incorporating synthetic heme: Red blood cell substitute without hypertension by nitric oxide scavenging
Eishun Tsuchida,Teruyuki Komatsu,Yasuko Matsukawa,Akito Nakagawa,Hiromi Sakai,Koichi Kobayashi,Makoto Suematsu +6 more
TL;DR: The entirely synthetic rHSA-FeP becomes a promising material as a new type of red blood cell substitute because of its low permeability through the vascular endothelium, which is recognized to be due to the depletion of nitric oxide by the extravasuated hemoglobins.
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