Nishide Hiroyuki | Department Of Applied Chemistry Waseda University
スポンサーリンク
概要
関連著者
-
Nishide Hiroyuki
Department Of Applied Chemistry Waseda University
-
NISHIDE Hiroyuki
Department of Polymer Chemistry, Advanced Research Institute For Science and Engineering, Waseda Uni
-
Tsuchida Eishun
Department Of Applied Chemistry Waseda University
-
西出 宏之
早稲田大学理工学術院
-
西出 宏之
早稲田大学理工学術院 応用化学専攻
-
TSUCHIDA Eishun
Department of Polymer Chemistry, Advanced Research Institute for Science and Engineering, Waseda Uni
-
西出 宏之
早稲田大学
-
Tsuchida E
Advanced Research Institute For Science And Engineering Department Of Polymer Chemistry Waseda Unive
-
Tsuchida E
Research Institute For Science And Engineering Waseda University
-
Tsuchida E
Artificial Blood Project Advanced Research Institute For Science And Engineering Waseda University
-
Tsuchida E
Waseda Univ. Tokyo Jpn
-
Tsuchida Eishun
早稲田大学理工学総合研究センター
-
Tsuchida E
Advanced Research Institute For Science And Engineering Waseda University
-
Oyaizu Kenichi
Department Of Applied Chemistry Waseda University
-
OYAIZU Kenichi
Department of Polymer Chemistry, Waseda University
-
Komatsu T
Research Institute For Science And Engineering Waseda University
-
Komatsu T
Department Of Polymer Chemistry Waseda University
-
Komatsu T
Department Of Polymer Chemistry Advanced Research Institute For Science And Engineering Waseda Unive
-
Komatsu Teruyuki
慶応義塾大学 医学部呼吸器外科
-
Tsuchida Eishun
Advanced Research Institute For Science And Engineering Waseda University
-
Komatsu Teruyuki
Department Of Polymer Chemistry Waseda University
-
KOMATSU Teruyuki
Department of Polymer Chemistry, Advanced Research Institute for Science and Engineering, Waseda Uni
-
Takeoka Shinji
Department Of Applied Chemistry Graduate School Of Science And Engineering Waseda University
-
Komatsu Teruyuki
Department Of Polymer Chemistry Advanced Research Institute For Science And Engineering Waseda Unive
-
Nishide Hiroyuki
Department Of Polymer Chemistry Advanced Research Institute For Science And Engineering Waseda Unive
-
TAKEOKA Shinji
Department of Polymer Chemistry, Advanced Research Institute for Science and Engineering, Waseda Uni
-
Oyaizu K
Waseda Univ. Tokyo
-
Tsuchida Eishun
Department Of Polymer Chemistry Waseda University
-
SHIBUE Toshimichi
Materials Characterization Central Laboratory, Waseda Univ.
-
Shibue Toshimichi
Materials Characterization Central Laboratory Waseda Univ.
-
Tsuchida E
Waseda Univ. Tokyo
-
Pu Yong-jin
Department Of Organic Device Engineering Yamagata University
-
Pu Yong-jin
Department Of Applied Chemistry Waseda University
-
KANEKO TAKASHI
Department of Environmental Health, School of Medicine, Yamanashi University
-
金子 隆司
新潟大学工学部化学システム工学科
-
Kaneko Takashi
Department Of Environmental Health School Of Medicine Yamanashi University
-
Oyaizu Kenichi
Advanced Research Institute For Science And Engineering Department Of Polymer Chemistry Waseda Unive
-
Nishide Hiroyuki
Department Of Polymer Chemistry Waseda University
-
TAKEOKA Shinji
Artificial Blood Project, Advanced Research Institute for Science and Engineering, Waseda University
-
Asada Toshio
Department Of General Education College Of Engineering Shizuoka University
-
TAKAHASHI Masahiro
Department of Advanced Pathobiology, Graduate School of Life and Environmental Sciences, Osaka Prefe
-
Takeoka S
Waseda Univ. Tokyo Jpn
-
Takeoka Shinji
Artificial Blood Project Advanced Research Institute For Science And Engineering Waseda University
-
Takeoka Shinji
Department Of Applied Chemistry Waseda University
-
Suga Takeo
Department Of Applied Chemistry Waseda University
-
Shinohara Hiromi
Department Of Anesthesia Kyoto University Hospital
-
TORIU Shuichi
Department of Polymer Chemistry, Waseda University
-
Ohashi Yoko
Glycobiology Research Frontier Research Program The Institute Of Physical And Chemical Research (rik
-
Toriu Shuichi
Department Of Polymer Chemistry Waseda University
-
Shentu Baoqing
Department Of Applied Chemistry Waseda University
-
Shibue T
Waseda Univ. Tokyo Jpn
-
Shibue Toshimichi
Mccl Waseda Univ.
-
Kambe Hisahi
Materials Characterization Central Laboratory Waseda University
-
MICHINOBU Tsuyoshi
Department of Polymer Chemistry, Waseda University
-
HAYASHI Naoki
Department of Radiological Life Sciences, Hirosaki University Graduate School of Health Sciences
-
SAKAI Hiromi
Department of Polymer Chemistry, Advanced Research Institute for Science and Engineering, Waseda Uni
-
Sakai H
Artificial Blood Project Advanced Research Institute For Science And Engineering Waseda University
-
Sakai Hiromi
早稲田大学理工学総合研究センター
-
Sakai Hiromi
Advanced Research Institute For Science And Engineering Waseda University
-
ASADA Toshio
Department of Polymer Chemistry, Waseda University
-
Sakai H
Advanced Research Institute For Science And Engineering Waseda University
-
Sakai Hiromi
Department Of Chemistry Faculty Of Science Ibaraki University
-
YUASA Makoto
Department of Pure and Applied Chemistry, Faculty of Science and Technology, Tokyo University of Sci
-
SUGA Takeo
Department of Applied Chemistry, Waseda University
-
Suga Takeo
Fukui Institute For Fundamental Chemistry Kyoto University
-
ARAI Kenji
Department of Nephrology, Toho University School of Medicine
-
Sakai Hiromi
Artificial Blood Project Advanced Research Institute For Science And Engineering Waseda University
-
OHASHI Yoko
Glycobiology Research, Frontier Research Program, The Institute of Physical and Chemical Research (R
-
Arai Kenji
Department Of Nephrology Toho University School Of Medicine
-
KAWAI Noriyuki
Department of Polymer Chemistry, Waseda University
-
SHENTU Baoqing
Department of Applied Chemistry, Waseda University
-
Yamamoto Kimihisa
Department Of Chemistry Faculty Of Science & Technology Keio University
-
Kawai Noriyuki
Department Of Polymer Chemistry Waseda University
-
Arai K
Department Of Polymer Chemistry Waseda University
-
Yuasa Makoto
Department Of Polymer Chemistry Waseda University
-
Shentu B
Department Of Applied Chemistry Waseda University
-
Shibue Toshimichi
Materials Characterization Central Laboratory Waseda University
-
KAMBE Hisashi
Materials Characterization Central Laboratory, Waseda University
-
ARAI Satoshi
Department of Applied Chemistry, Waseda University
-
OHKAWA Haruki
Department of Applied Chemistry, Waseda University
-
Ohkawa Haruki
Department Of Applied Chemistry Waseda University
-
Ohyanagi Manshi
Department Of Materials Chemistry Faculty Of Science And Technology Ryukoku University
-
FUKUZAKI Eiji
Department of Applied Chemistry, Waseda University
-
Inui J
Department Of Applied Chemistry Waseda University
-
KUZUMAKI Yoshihiro
Department of Polymer Chemistry, Waseda University
-
Ando K
Toshiba Corporation
-
Nishide Hiroyuki
Dep. Of Applied Chemistry Waseda Univ.
-
Kato Fumiaki
Department Of Applied Chemistry Waseda University
-
SUZUKI Takayuki
Department of Neurosurgery, Himeji Medical Center
-
AMAO Yutaka
Department of Applied Chemistry, Oita University
-
NAKAMURA Satoshi
Department of Neurosurgery, Tokyo Women's Medical University
-
YANAGIMOTO Tetsuya
Department of Applied Chemistry, Faculty of Engineering, Hiroshima University
-
OHGUSHI Takeru
Department of Polymer Chemistry, Advanced Research Institute For Science and Engineering, Waseda Uni
-
CHUNG Joo
Department of Polymer Chemistry, Waseda University
-
TSUCHIDA Eishun
Advanced Research Institute for Science and Engineering, Department of Polymer Chemistry, Waseda Uni
-
YAMAMOTO Kimihisa
Light and Material, PRESTO, Research Development Corporation of Japan, Research Institute for Produc
-
Yamada Kazuhiro
Department of Hard Tissue Research, Matsumoto Dental University Graduate School of Oral Medicine
-
Nakao Keisuke
Department Of Otorhinolaryngology Fukuoka Municipal Hospital For Children
-
Pu Y‐j
Waseda Univ. Tokyo Jpn
-
Suzuki Ayako
Department of Pharmaceutics and Biopharmaceutics, Showa Pharmaceutical University
-
Amao Yutaka
Department Of Applied Chemistry Oita University
-
Asada Toshio
Department Of Polymer Chemistry Waseda University
-
Yamaguchi K
Department Of Chemistry Graduate School Of Science Osaka University
-
Honda Kenji
Advanced Research Center For Science And Engineering Waseda University
-
Maruta Goro
Department Of Chemistry Faculty Of Science Osaka University
-
Chung Joo
Department Of Materials Chemistry Graduate School Of Engineering Kyoto University
-
Chung Joo
Department Of Polymer Chemistry Waseda University
-
Seki Kazuhiko
Department Of Materials Science Faculty Of Science Hiroshima University
-
Ohgushi Takeru
Department Of Polymer Chemistry Advanced Research Institute For Science And Engineering Waseda Unive
-
TAKAHASHI Naoki
Department of Clinical Radiology, Graduate School of Medical Sciences, Kyushu University
-
KURATA Takashi
Department of Applied Chemistry, Waseda University
-
SUZUKI Yoko
Department of Cardiology, National Maiduru Hospital
-
OKURA Ichiro
Department of Bioengineering, Tokyo Institute of Technology
-
Pu Yong-jin
Department Of Polymer Chemistry Waseda University
-
Yamamoto Kimiko
Department Of Biomedical Engineering Graduate School Of Medicine University Of Tokyo
-
TAKAHASHI Yusuke
Departments of Materials Science and Engineering, Nagoya Institute of Technology
-
Kato Junji
Department Of Operative Dentistry Tokyo Dental College
-
Kurata Takashi
Department Of Applied Chemistry Waseda University
-
MURATA Hidenori
Department of Orthopedic Surgery, Yamaguchi University School of Medicine
-
SHINOHARA Hiromi
Department of Polymer Chemistry, Waseda University
-
YAMAGUCHI Kizashi
Department of Chemistry, Graduate School of Science, Osaka Unibersity
-
YAMAZAKI Tomoko
Department of Molecular Chemistry, Graduate School of Engineering, Hokkaido University
-
SOMA Minoru
Department of Applied Chemistry, Waseda University
-
SHIRAI Satoshi
Graduate School of Science and Engineering, Yamagata University
-
KIDO Junji
Graduate School of Science and Engineering, Yamagata University
-
Yamamoto K
Keio Univ. Yokohama
-
MURAKAMI Takaya
Department of Pharmaceutics, Gifu Pharmaceutical University
-
YONEKUTA Yasunori
Department of Applied Chemistry, Waseda University
-
KOMATSU Teruyuki
Advanced Research Institute for Science and Engineering, Waseda University
-
ISHIHARA Seiji
Department of Applied Chemistry, Waseda University
-
MOROKUMA Chihiro
Department of Bioengineering, Tokyo Institute of Technology
-
ANDO Katsutoshi
Department of Polymer Chemistry, Waseda University
-
YANAGISAWA Satoru
Department of Polymer Chemistry, Waseda University
-
Okura Ichiro
Department Of Bioengineering Tokyo Institute Of Technology
-
Shinohara Hiromi
Department Of Applied Chemistry Waseda University
-
Shinohara Hiromi
Department Of Polymer Chemistry Waseda University
-
Yamamoto Kimihisa
Advanced Research Institute For Scinece And Engineering Department Of Polymer Chemistry Waseda Unive
-
Yamamoto Kimihisa
Advanced Research Institute For Science And Engineering Department Of Polymer Chemistry Waseda Unive
-
Ando Katsutoshi
Department Of Polymer Chemistry Waseda University
-
Ito Eisuke
Department Of Surgery Tokai University School Of Medicine:department Of Surgery Tokai University Hac
-
Yamaguchi K
Department Of Polymer Science And Engineering Yamagata University
-
Ito Fumiaki
Department Of Biochemistry Faculty Of Pharmaceutical Sciences Setsunan University
-
Tanaka Manabu
Department Of Mechanical Engineering Faculty Of Engineering And Resource Science Akita University
-
Yamada Kazuhiro
Department Of Gastroenterology And Metabolism Nagoya City University Graduate School Of Medical Scie
-
YAMAKI Daisuke
Department of Chemistry, Faculty of Science, Osaka University
-
NAKAHARA Kentaro
Department of Applied Chemistry, Graduate School of Engineering, The University of Tokyo
-
Kido Junji
Graduate School Of Engineering Yamagata University
-
Soma Minoru
Department Of Applied Chemistry Waseda University
-
Soejima Yuji
Department Of Physics Kyushu University
-
Soejima Yuji
Department Of Polymer Chemistry Waseda University
-
Yanagisawa Satoru
Department Of Polymer Chemistry Waseda University
-
Akashi Satoko
The Institute Of Physical And Chemical Research (riken)
-
Yamaki Daisuke
Department Of Chemistry Faculty Of Science Osaka University
-
Shirai Satoshi
Graduate School Of Science And Engineering Yamagata University
-
KAMBE Hisahi
Materials Characterization Central Laboratory, School of Science and Engineering, Waseda University
-
OHASHI Yoko
Institute of Physical and Chemical Research (RIKEN)
-
ISHIHARA Shinsuke
Department of Applied Chemistry, Waseda University
-
Tsuchida Eishun
Advanced Research Institute For Science & Engineering Waseda University
-
MIZUMA Hiroyuki
Department of Polymer Chemistry, Waseda University
-
MCBREEN James
Material Science Divivion, Brookhaven National Laboratory
-
Mcbreen James
Material Science Divivion Brookhaven National Laboratory
-
Ishihara Shinsuke
Department Of Applied Chemistry Graduate School Of Science And Engineering Waseda University
-
Ishihara Shinsuke
Department Of Applied Chemistry Waseda University
-
MATSUBUCHI Eriko
Department of Polymer Chemistry, Waseda University
-
TAKEUCHI Shunya
Department of Applied Chemistry, Waseda University
-
OZAKI Takanori
Department of Applied Chemistry, Waseda University
-
SAKATA Miki
Department of Applied Chemistry, Waseda University
-
Shinohara H
Waseda Univ. Tokyo Jpn
-
IBE Takeshi
Department of Applied Chemistry, Waseda University
-
KAIHO Shu
Department of Applied Chemistry, Waseda University
-
Yamamoto K
Department Of Chemistry Faculty Of Science & Technology Keio University
-
IMAI Shingo
Department of Applied Chemistry, Waseda University
-
RAJCA Andrzej
Department of Chemistry, University of Nebraska
-
MIYAJIMA Daisuke
Department of Applied Chemistry, Waseda University
-
TAKADA Ryosuke
Department of Applied Chemistry, Waseda University
-
WASKITOAJI Wihatmoko
Department of Applied Chemistry, Waseda University
-
HYAKUTAKE Tsuyoshi
Department of Applied Chemistry, Waseda University
-
WATANABE Masahiro
Clean Energy Research Center, University of Yamanashi
-
Matsubuchi Eriko
Department Of Polymer Chemistry Waseda University
-
Kato Junji
Department Of Applied Chemistry Waseda University
-
Sakata Miki
Department Of Applied Chemistry Waseda University
-
Ozaki Takanori
Department Of Applied Chemistry Waseda University
-
TAKASHIMA Junichi
Department of Polymer Chemistry, Waseda University
-
NASU Yasumasa
Department of Polymer Chemistry, Waseda University
-
INUKAI Junji
Fuel Cell Nanomaterials Center, University of Yamanashi
-
Imai Shingo
Department Of Applied Chemistry Waseda University
-
Takada Ryosuke
Department Of Applied Chemistry Waseda University
-
Ishihara Seiji
Department Of Applied Chemistry Waseda University
-
Saito Yusuke
Department Of Applied Chemistry Waseda University
-
Murakami Takaya
Department Of Applied Chemistry Waseda University
-
KATO Fumiaki
Department of Applied Chemistry, Waseda University
-
OKUMURA Chie
Department of Applied Chemistry, Waseda University
-
Kaiho Shu
Department Of Applied Chemistry Waseda University
-
Ibe Takeshi
Department Of Applied Chemistry Waseda University
-
Murata Hidenori
Department Of Applied Chemistry Waseda University
-
Waskitoaji Wihatmoko
Department Of Applied Chemistry Waseda University
-
Kawakami Hiroyoshi
Department Of Applied Chemistry Graduate Course Of Engineering Tokyo Metropolitan University
-
Nasu Yasumasa
Department Of Polymer Chemistry Waseda University
-
Takashima Junichi
Department Of Polymer Chemistry Waseda University
-
Nakamura Takehiko
Department Of Dermatology Kumamoto National Hospital
著作論文
- Reduction of Methemoglobin via Electron Transfer across the Bilayer Membrane of Hb Vesicles
- Differences in Oxygen Transport and Physical Property between Encapsulated Hemoglobin and Cell-free Hemoglobin
- Coordination Behavior of O_2 and CO in a Solid Film Consisting of Hemoglobin and Maltose
- Preparation of Poly(1, 4-phenylene) by Oxidative Polymerization of Benzene with 2, 3-Dichloro-5, 6-dicyano-p-benzoquinone
- Triarylamine-Bearing Poly (1, 4-phenylenevinylene) : Facile Preparation and Its Durable Aminium Polyradical
- Electron-Transfer Kinetics of Nitroxide Radicals as an Electrode-Active Material
- High-Spin Oxyphenylbenzo-Annelated Dehydro[12]annulene
- An Optical Sensing Material for Trace Analysis of Oxygen. Metalloporphyrin Dispersed in Poly(1-trimethylsilyl-1-propyne) Film
- Totally Organic Polymer-Based Electrochromic Cell Using TEMPO-Substituted Polynorbornene as a Counter Electrode-Active Material
- Electroluminescence of Poly(phenylenevinylene)s Containing Triphenylamine Moieties in the Main Chain(Atoms, Molecules, and Chemical Physics)
- Structural Implication of Oxoammonium Cations for Reversible Organic One-electron Redox Reaction to Nitroxide Radicals
- Thermostable Synthetic Hemoproteins : Thermophilic Xylanases Hybridized with Dioxygen-Carrying meso-Tetrakis(o-pivalamidophenyl)porphinatoiron(II) Derivative
- O_2-Transport Albumin: A New Hybrid-Haemoprotein Incorporating Tetraphenylporphinatoiron(II) Derivative
- Characteristic O_2-Binding of Lipidprotoheme in Phospholipid Bilayer Membrane
- Synthesis of Protoporphyrin IX Derivatives Having Four Amphiphilic and/or Lipophilic Alkyl Chains and Their Dispersing Behavior in Phospholipid Bilayer
- Electroreduction of Oxygen at a Pt/C-Modified Electrode with a Cobaltporphyrin Complex
- Reduction of Oxygen at an Electrode Modified by Cobaltporphyrin Liquid Membrane
- Synthesis and Aggregate Morphology of Protoporphyrin IX Derivative Having Phospholipid Residue
- Double-Sided Porphyrinatoiron(II) Bearing Covalently Bound Imidazole. An Efficient Oxygen-Carrier Molecule Composed by 8 Ester Bonds
- Two-dimensionally extended organic high-spin poly(aminium cationic radical)s and their magnetic force microscopic images
- Ferromagnetic Spin Coupling of tert-Butylnitroxide Diradicals through a Conjugated Oligo(1,2-phenylenevinylene)-Coupler
- Structural Characterization of Picket-fence Porphyrinatoiron with ω-Hydroxy-2, 2-dimethylicosanoyl Side-chains vs. ω-Cholinephosphoryl-2, 2-dimethylicosanoyl Side-chains by FAB High-energy-CID MS/MS
- Comparison of Electron Ionization and Fast Atom Bombardment Ionization for CID-MS/MS Studies of "Picket-Fence" Porphyrin
- Analysis of Functional Groups of Porphyrins by Collision-Induced Dissociation Mass Spectrometry/Mass Spectrometry
- Porphyrin Capped with Calix[4]arene Derivative via Hydrogen Bonds
- A Duplex of Tetra(2-pyridyl)porhyrin and Tetrahydroxylcalix[4]arene
- 3,4'-Bis[bis(t-butyl-and methoxy-phenyl)amino]stilbene Bis(cation radical)s and Their Electrochemical and Magnetic Properties
- Reversible Stretching of a Polymer-Supported Cobalt-Chelate Film in Response to Oxygen
- Reversible Oxygen-Releasing from the Composite of Picketfence-Porphyrinatocobalt and Carbon in Response to a 1.5 V-Application
- Lipid-Heme/Microsphere. A New Totally Synthetic Oxygen-Carrier under Physiological Conditions
- Synthesis of Poly(oxoammonium salt)s and Their Electrical Properties in the Organic Thin Film Device
- Electronic Communication in the Formation of a Quartet Molecule 2,6,10-Tris[bis(p-methoxyphenyl)aminium]triphenylene
- Synthesis of Dendritic, Non-Kekule-, and Nondisjoint-type Triphenylmethanes Terminated with Galvinoxyl Radicals
- Synthesis and Magnetic Property of Poly[bis(4-methoxyphenyl)aminiumacetylene]s
- Biplanar Visualization of Oxygen Pressure by Sensory Coatings of Luminescent Pt-Porpholactone and -Porphyrin Polymers
- Synthesis and Ferromagnetic Spin Algnment in Poly(4-oxyphenyl-1,2-phenyleneethynylene)s
- Polyphenoxyl Radical Photochemically Generated from the Oxalate Derivative of Poly(1, 2-phenylenevinylene)
- Synthesis of and Ferromagnetic Coupling in Poly(phenylenevinylene)s Bearing Built-in t-Butyl Nitroxides
- UPS Study of Poly(phenylenevinylene)s Substituted with Hexyloxy,Phenoxy, and Nitroxy Residues
- Poly(phenylenevinylene) Bearing Built-in tert-Butylnitroxide. A polyradical Ferromagnetically Coupled in the Intrachain
- Effect of an Oxygen-Binding Reaction at the Cobalt Porphyrin Site Fixed in a Polymer Membrane on Facilitated Oxygen Transport
- Imidazolyl-Tailed Tetrakis(pivalamidophenyl)porphyrinatocobalt (II) : An Efficient Oxygen Adsorbent Molecule
- Nitroxide Radicals for Highly Efficient Redox Mediation in Dye-sensitized Solar Cells
- WATER SOLUBLE POLYMER-BOUND IRON-PORPHYRINS AND THEIR OXYGEN BINDING ABILITY
- REVERSE BOHR EFFECT BY LIPOSOME-EMBEDDED LIPID-HEME
- KINETIC PROPERTY OF OXYGEN- AND CARBON MONOXIDEBINDING BY THE LIPOSOME-EMBEDDED HEME UNDER PHYSIOLOGICAL CONDITIONS (A RED BLOOD CELL MODEL)
- Organic Radical Battery Approaching Practical Use
- Dual Dopable Poly(phenylacetylene) with Nitronyl Nitroxide Pendants for Reversible Ambipolar Charging and Discharging
- Magnetic Force Microscopic Images of Nanometer-Sized Polyradical Particles
- Enhanced Oxygen Permeation through a Porous Glass Membrane Containing Phthalocyanato- and Porphyrinato-Cobalt Complexes as an Oxygen Carrier
- Magnetic Force Microscopy as a New Tool to Evaluate Local Magnetization of Organic Radical Polymers
- Preparation of Acid-Functionalized Poly(phenylene oxide)s and Poly(phenylene sulfone) and Their Proton Conductivity
- Analysis of Facilitated Oxygen Transport in a Liquid Membrane of Hemoglobin
- Poly(3-phenylgalvinoxylthiophene). A New Conjugated Polyradical with High Spin Concentration
- High Oxygen Permeation and Persistent Oxygen-Carrying in a Poly(vinylimidazole-co-fluoroalkyl methacrylate)- Cobaltporphyrin Membrane
- 3-Dithiolthione-substituted Polythiophene and Its Redox Activities
- Oxygen-Carrying Cobaltporphyrin Complexed with Electroconductive Poly(3,4-azopyridylene)
- N,N-Bis(4-{5-[N,N-bis(4-methoxyphenyl)-N-yloammonio]-2-methylstyryl}phenyl)ammoniumyl Triradical : A Trimer Model of High-Spin Poly[(4-methoxyphenyl-N-yloammonio)-1,2(or 4)-phenylenevinylene-1,2(or 4)-phenylene]
- A Helical Ladder Polymer : Synthesis and Magnetic Circular Dichroism of Poly[phenylene-4,6-bis(methylsulfonio)-1,3-diyl triflate]
- Facile Preparation of Helical Ladder-type Polymers with Fused Phenoxathiine Rings
- Electrospinning of radical polymers : redox-active fibrous membrane formation
- Imaging of Water Droplets Formed during PEFC Operation on GDLs with Different Pore Sizes
- Amphiphilic porphinatoirons having steroid groups and their oxygen-adduct formation in an aqueous medium.
- Effect of polymer matrices on oxygen-binding of a cobalt porphyrin complex.
- The preparation of poly(dihydroxyphenylene) through the electro-oxidative polymerization of hydroquinone.
- Dual-mode transport of molecular oxygen through the membrane of the poly(octyl methacrylate-co-4-vinylpyridine)(N,N'-disalicylideneethylenediaimine)cobalt(II) complex.
- The infrared spectrum of dioxygen bound to the synthetic porphinatoiron in an aqueous medium.
- Complex formation of crosslinked poly(4-vinylpyridine) resins with copper(II).
- Oxygen- and carbon monoxide-binding affinity of the liposomal heme under semiphysiological conditions.
- Synthesis and coordination behaviors of new double-sided porphyrinatoiron(II) complexes: Effect of the pocket-size for imidazole on dioxygen binding.
- Preparation of poly(p-phenylene) by electrooxidative polymerization in acidic media.
- In-situ Polymerization of Thiophene Derivatives Using a Gas-phase Oxidant to Form a Hole-transporting Layer in Dye-sensitized Solar Cell