What is he best known for?
The fields of study he is best known for:
- Organic chemistry
- Catalysis
- Alkene
Hideki Sakurai mainly investigates Organic chemistry, Organosilicon, Photochemistry, Stereochemistry and Crystallography.
His Organic chemistry research focuses on Trimethylsilyl, Alcohol, Aliphatic compound, Stereoselectivity and Lithium.
His Organosilicon research is multidisciplinary, incorporating elements of Characterization, Primary, Trifluoromethyl and Tetra-n-butylammonium fluoride.
His biological study spans a wide range of topics, including Nuclear magnetic resonance spectroscopy, Radical, Intramolecular force, Silylation and Solvent effects.
The study incorporates disciplines such as Sigma bond and Pentene, Catalysis, Addition reaction in addition to Stereochemistry.
His work on Crystal structure as part of general Crystallography study is frequently connected to X-ray crystallography, Solid-state and Sigma, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them.
His most cited work include:
- Chemistry of organosilicon compounds (305 citations)
- Chemistry of organosilicon compounds. 99. Conjugate addition of allylsilanes to .alpha.,.beta.-enones. A New method of stereoselective introduction of the angular allyl group in fused cyclic .alpha.,.beta.-enones (253 citations)
- Syntheses of γ,δ-unsaturated alcohols from allylsilanes and carbonyl compounds in the presence of titanium tetrachloride (250 citations)
What are the main themes of his work throughout his whole career to date?
Hideki Sakurai focuses on Organic chemistry, Organosilicon, Photochemistry, Medicinal chemistry and Polymer chemistry.
His study in Catalysis, Trimethylsilyl, Aliphatic compound, Reagent and Stereoselectivity is carried out as part of his Organic chemistry studies.
His Organosilicon research is multidisciplinary, relying on both Molecule and Stereochemistry.
His studies in Stereochemistry integrate themes in fields like Crystallography and Crystal structure.
The various areas that Hideki Sakurai examines in his Photochemistry study include Silylene, Ion, Radical, Intramolecular force and Silylation.
His studies deal with areas such as Copolymer, Anionic addition polymerization and Silicon as well as Polymer chemistry.
He most often published in these fields:
- Organic chemistry (41.03%)
- Organosilicon (29.58%)
- Photochemistry (29.39%)
What were the highlights of his more recent work (between 1992-2010)?
- Organic chemistry (41.03%)
- Photochemistry (29.39%)
- Polymer chemistry (11.64%)
In recent papers he was focusing on the following fields of study:
Hideki Sakurai mostly deals with Organic chemistry, Photochemistry, Polymer chemistry, Organosilicon and Stereochemistry.
His work in Catalysis, Reagent, Stereoselectivity, Silylation and Organic synthesis are all subfields of Organic chemistry research.
His work deals with themes such as Thermochromism, Ring, Polymer, Silylene and Ion, which intersect with Photochemistry.
His Polymer chemistry research includes elements of Copolymer, Anionic addition polymerization, Polymerization, Silicon and Polysilane.
Hideki Sakurai has researched Organosilicon in several fields, including Benzene, X ray analysis, Nuclear magnetic resonance spectroscopy, Intramolecular force and Addition reaction.
His study explores the link between Stereochemistry and topics such as Medicinal chemistry that cross with problems in Tin.
Between 1992 and 2010, his most popular works were:
- Chemistry of organosilicon compounds. 303. The missing hexasilaprismane: synthesis, x-ray analysis and photochemical reactions (97 citations)
- Stable Tetrakis(trialkylsilyl)disilenes; Synthesis, X‐Ray Structures, and UV/VIS Spectra (72 citations)
- Silole-Incorporated Polysilanes1a (69 citations)
In his most recent research, the most cited papers focused on:
- Organic chemistry
- Catalysis
- Alkene
His primary areas of investigation include Polymer chemistry, Photochemistry, Stereochemistry, Polysilane and Crystallography.
His Polymer chemistry research is multidisciplinary, incorporating perspectives in Disilene, Rhodium, Anionic addition polymerization, Monomer and Organic chemistry.
His Organic chemistry study frequently links to adjacent areas such as Characterization.
His Photochemistry research includes themes of Trimethylsilyl, Organosilicon, Benzene, Ring and Nuclear magnetic resonance spectroscopy.
His Polysilane research is multidisciplinary, incorporating elements of Methacrylic acid, Copolymer, Monolayer and Micelle.
His work in the fields of Crystallography, such as Crystal structure and Planarity testing, intersects with other areas such as Type.
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