The scientist’s investigation covers issues in Organic chemistry, Reagent, Titanium, Medicinal chemistry and Catalysis. Her is involved in several facets of Organic chemistry study, as is seen by her studies on Aliphatic compound, Hydrolysis, Stereoselectivity, Allylic rearrangement and Reactivity. The study incorporates disciplines such as Nitrile, Optically active, Polymer chemistry and Regioselectivity in addition to Reagent.
The concepts of her Titanium study are interwoven with issues in Propargyl, Alkoxide, Divalent and Acetylene. Her work on Bicyclic molecule as part of general Medicinal chemistry study is frequently connected to Tandem, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. Her Catalysis research includes themes of Bromide and Zirconium.
Her primary scientific interests are in Organic chemistry, Medicinal chemistry, Stereochemistry, Reagent and Optically active. Her Organic chemistry and Catalysis, Titanium, Stereoselectivity, Allylic rearrangement and Aliphatic compound investigations all form part of her Organic chemistry research activities. Her Titanium research incorporates elements of Polymer chemistry and Divalent.
Her work carried out in the field of Medicinal chemistry brings together such families of science as Hydrolysis, Epoxy, Propene and Nucleophilic acyl substitution. She studied Reagent and Alkoxide that intersect with Acetylene. Her Optically active research is multidisciplinary, incorporating perspectives in Combinatorial chemistry, Enantiomer and Enantioselective synthesis.
Fumie Sato mostly deals with Organic chemistry, Reagent, Titanium, Stereochemistry and Optically active. All of her Organic chemistry and Catalysis, Aldehyde, Regioselectivity, Enantioselective synthesis and Stereoselectivity investigations are sub-components of the entire Organic chemistry study. Her Reagent research includes themes of Nitrile, Polymer chemistry, Acetylene, Alkoxide and Bicyclic molecule.
The various areas that Fumie Sato examines in her Titanium study include Inorganic chemistry and Divalent. Her Stereochemistry study integrates concerns from other disciplines, such as Yield, Trimethylsilyl, Stereocenter, Group and Alkyl. Her Optically active study combines topics from a wide range of disciplines, such as Cyclohexane, Propargyl and Enantiomeric excess.
Her primary scientific interests are in Organic chemistry, Reagent, Combinatorial chemistry, Titanium and Alkoxide. Her work on Enantioselective synthesis and Aldehyde as part of her general Organic chemistry study is frequently connected to Tandem, thereby bridging the divide between different branches of science. Her Reagent study incorporates themes from Catalysis, Coupling reaction, Nitrile, Polymer chemistry and Acetylene.
As a part of the same scientific study, Fumie Sato usually deals with the Combinatorial chemistry, concentrating on C c coupling and frequently concerns with Oxazoline and Carbon chain. Her biological study spans a wide range of topics, including Inorganic chemistry and Divalent. Her work focuses on many connections between Alkoxide and other disciplines, such as Bicyclic molecule, that overlap with her field of interest in Propargyl bromide, Enyne and Enol.
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Synthesis of organotitanium complexes from alkenes and alkynes and their synthetic applications.
Fumie Sato;Hirokazu Urabe;Sentaro Okamoto.
Chemical Reviews (2000)
Generation and reactions of low-valent titanium alkoxide-acetylene complexes. A practical preparation of allyl alcohols
Kousuke Harada;Hirokazu Urabe;Fumie Sato.
Tetrahedron Letters (1995)
A Convenient One-Pot Synthesis of 1,4-Dihalobutadienes from Alkynes via Titanacyclopentadienes and Their Transformation to a Series of Silole Derivatives
Shigehiro Yamaguchi;Ren-Zhi Jin;Kohei Tamao;Fumie Sato.
Journal of Organic Chemistry (1998)
Metalative Reppe reaction. Organized assembly of acetylene molecules on titanium template leading to a new style of acetylene cyclotrimerization.
Daisuke Suzuki;and Hirokazu Urabe;Fumie Sato.
Journal of the American Chemical Society (2001)
New, Efficient Method for the Synthesis of Allyltitanium Compounds from Allyl Halides or Allyl Alcohol Derivatives via Oxidative Addition. A Highly Efficient and Practical Synthesis of Homoallyl Alcohols
Aleksandr Kasatkin;Takashi Nakagawa;Sentaro Okamoto;Fumie Sato.
Journal of the American Chemical Society (1995)
The preparation of Grignard reagents via the hydromagnesation reaction and their uses in organic synthesis
Journal of Organometallic Chemistry (1985)
Cp2TiCl2-Catalyzed Grignard exchange reactions with acetylenes. A convenient method for preparation of E-alkenyl Grignard reagents
Fumie Sato;Hiroaki Ishikawa;Masao Sato.
Tetrahedron Letters (1981)
Highly efficient synthesis of propargyl- and allenyltitanium reagents from propargyl halides or propargyl alcohol derivatives. Practical synthesis of allenyl and homopropargyl alcohols
Takashi Nakagawa;Aleksandr Kasatkin;Fumie Sato.
Tetrahedron Letters (1995)
Synthetic application of titanabicycles generated from 1,6- or 1,7-dienes, enynes, and diynes and (ν2-propene)Ti(O-i-Pr)2
Hirokazu Urabe;Takeshi Hata;Fumie Sato.
Tetrahedron Letters (1995)
Efficient and Practical Method for Synthesizing N-Heterocyclic Compounds Using Intramolecular Nucleophilic Acyl Substitution Reactions Mediated by Ti(O-i-Pr)4/2i-PrMgX Reagent. Synthesis of Quinolones, Pyrroles, Indoles, and Optically Active N-Heterocycles Including Allopumiliotoxin Alkaloid 267A
Sentaro Okamoto;Masayuki Iwakubo;Katsushige Kobayashi;Fumie Sato.
Journal of the American Chemical Society (1997)
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