Yasunobu Egawa scite author profile

A perfect "Janus-cube" octasilsesquioxane, a nanometer-scale Janus particle with two different types of substituents, was synthesized through the cross-coupling of a "half-cube" cyclic sodium siloxanolate with another half-cube cyclic fluorosiloxane. The structure was confirmed by X-ray crystallography to be a Janus cube. The overall synthesis is simple and does not require drastic separation methods compared with previous methods. The synthesis of the Janus cube demonstrates a novel siloxane bond-forming reaction involving the coupling a silanol salt and fluorosilane. The reaction is mild, does not result in acid generation, and could be applied to the construction of other novel siloxane compounds.

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A laser light scattering in situ system for counting aggregates in blood platelet aggregation

Yamamoto

Egawa

Shirasawa

et al. 1995

Meas. Sci. Technol.

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A novel system has been developed to evaluate biochemically induced blood platelet aggregation by means of a particle counting technique that uses light scattering. Variations in the particle size and concentration were measured by detecting the scattered light intensity and the number of particles, respectively, passing through a laser beam. The system is capable of performing sensitive, in situ continuous measurements of platelet aggregation by counting and sizing of aggregates.-

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Synthesis, Structures, and Thermal Properties of Symmetric and Janus “Lantern Cage” Siloxanes

Uchida

Egawa

Adachi

et al. 2019

Chemistry A European J

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Symmetric and asymmetric (Janus‐type) new “lantern cage” siloxanes (PhSiO1.5)4(Me2SiO)4(RSiO1.5)4 (R=Ph or iBu) were synthesized through reaction of all‐cis‐[PhSi(OSiMe2Br)O]4 with all‐cis‐[RSi(OH)O]4 (R=Ph or iBu). These precursors were obtained by facile two or three‐step reactions from commercially available compounds. The spectroscopic properties of the resulting products were fully characterized and they showed high thermal stability and sublimation without decomposition. The crystal structures clearly indicated that the internal vacancy volumes of the lantern cages are considerably larger than that of octaphenylsilsesquioxane (PhSiO1.5)8. DFT calculations of the lantern cage showed a distinctly different electronic state from that of octasilsesquioxane. These results suggest that lantern cage siloxanes have a characteristic “field” in the molecule.

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Cyclic Silanols with Long Alkyl Chains

et al. 2016

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Yasunobu Egawa

Janus‐Cube Octasilsesquioxane: Facile Synthesis and Structure Elucidation

A laser light scattering in situ system for counting aggregates in blood platelet aggregation

Synthesis, Structures, and Thermal Properties of Symmetric and Janus “Lantern Cage” Siloxanes

Cyclic Silanols with Long Alkyl Chains

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