His primary areas of study are Polymer chemistry, Polymerization, Monomer, Polymer and Catalysis. His Polymer chemistry study integrates concerns from other disciplines, such as Copolymer, Ring-opening polymerization, Membrane and Moiety. His Polymerization study combines topics from a wide range of disciplines, such as Polyacetylene, Carboxamide, Solvent effects and Phenylacetylene.
Fumio Sanda has included themes like Rhodium, Proton NMR and Cotton effect in his Monomer study. While the research belongs to areas of Polymer, Fumio Sanda spends his time largely on the problem of Helix, intersecting his research to questions surrounding Radical, Nitroxyl and Alkyl. His Catalysis research focuses on Photochemistry and how it connects with Cycloaddition, Carbon disulfide, Molecular aggregation and Chain-growth polymerization.
Fumio Sanda focuses on Polymer chemistry, Polymerization, Polymer, Monomer and Organic chemistry. His Polymer chemistry research is multidisciplinary, incorporating elements of Copolymer, Helix, Polyacetylene, Catalysis and Solvent effects. His research in Catalysis intersects with topics in Carbon disulfide and Chirality.
His studies in Polymerization integrate themes in fields like Rhodium, Acetylene, Phenylacetylene, Photochemistry and Side chain. The concepts of his Polymer study are interwoven with issues in Membrane, Optically active, Carbazole and Thermal stability. His Monomer research is multidisciplinary, relying on both Toluene and Cotton effect.
Fumio Sanda spends much of his time researching Polymer chemistry, Polymerization, Polymer, Monomer and Catalysis. His Polymer chemistry study combines topics in areas such as Copolymer, Ring-opening polymerization, Ligand, Acetylene and Polyacetylene. His Polymerization research includes elements of Chirality, Bipyridine and Phosphine.
His Polymer research includes themes of Photochemistry, Platinum, Optically active and Circular dichroism. His research in Monomer tackles topics such as Absorption which are related to areas like Solvent effects, Chromophore and Silver trifluoromethanesulfonate. In the field of Catalysis, his study on Heck reaction and Sonogashira coupling overlaps with subjects such as Well-defined.
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Recent advances in ring-opening metathesis polymerization, and application to synthesis of functional materials
Sutthira Sutthasupa;Sutthira Sutthasupa;Masashi Shiotsuki;Fumio Sanda.
Polymer Journal (2010)
Polymerization of substituted acetylenes and features of the formed polymers
Masashi Shiotsuki;Fumio Sanda;Toshio Masuda.
Polymer Chemistry (2011)
Synthesis and Properties of Amino Acid-Based Polyacetylenes
Guangzheng Gao;Fumio Sanda;Toshio Masuda.
Synthesis, Chiroptical Properties, and pH Responsibility of Aspartic Acid- and Glutamic Acid-Based Helical Polyacetylenes
Fumio Sanda;Kayo Terada;Toshio Masuda.
Polyaddition of bis(seven-membered cyclic carbonate) with diamines: A novel and efficient synthetic method for polyhydroxyurethanes
Hidetoshi Tomita;Fumio Sanda;Takeshi Endo.
Journal of Polymer Science Part A (2001)
Synthesis of Polyacetylenes Having Pendant Carbazole Groups and Their Photo- and Electroluminescence Properties
Fumio Sanda;Takafumi Nakai;Norihisa Kobayashi;Toshio Masuda.
Highly efficient chemical fixations of carbon dioxide and carbon disulfide by cycloaddition to aziridine under atmospheric pressure
Atsushi Sudo;Yosuke Morioka;Eri Koizumi;Fumio Sanda.
Tetrahedron Letters (2003)
Polyacetylene and Polynorbornene Derivatives Carrying TEMPO. Synthesis and Properties as Organic Radical Battery Materials
Toru Katsumata;Masaharu Satoh;Jun Wada;Masashi Shiotsuki.
Macromolecular Rapid Communications (2006)
Conformational transition between random coil and helix of poly(N-propargylamides)
Jianping Deng;Junichi Tabei;Masashi Shiotsuki;Fumio Sanda.
Synthesis and Properties of Serine- and Threonine-Based Helical Polyacetylenes
Fumio Sanda;Hitoshi Araki;Toshio Masuda.
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