S
Shinji Inagaki
Researcher at Toyota
Publications - 241
Citations - 16693
Shinji Inagaki is an academic researcher from Toyota. The author has contributed to research in topics: Mesoporous organosilica & Mesoporous material. The author has an hindex of 61, co-authored 237 publications receiving 15879 citations. Previous affiliations of Shinji Inagaki include Polytechnic University of Turin & Korean Council for University Education.
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Catalytic application of sulfonic acid functionalized mesoporous benzene-silica with crystal-like pore wall structure in esterification
TL;DR: The first catalytic applications of sulfonic acid-functionalized hydrophobic mesoporous benzene-silica with lamellar pore wall structure are reported in this article.
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Synthesis of Cubic Hybrid Organic−Inorganic Mesostructures with Dodecahedral Morphology from a Binary Surfactant Mixture
M. P. Kapoor and,Shinji Inagaki +1 more
TL;DR: In this paper, the synthesis of a cubic ethane−silica hybrid organic−inorganic mesoporous material using a binary surfactant mixture was reported, which consists of ethane-bridged organosilica (BTME), polyoxyethylene alkyl ether [C12(EO)4], and the octadecyltrimethylammonium chloride (C18TMACl) surfactants in a basic medium.
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Titanium containing inorganic–organic hybrid mesoporous materials with exceptional activity in epoxidation of alkenes using hydrogen peroxide
Mahendra P. Kapoor,Mahendra P. Kapoor,Asim Bhaumik,Shinji Inagaki,Koji Kuraoka,Tetsuo Yazawa +5 more
TL;DR: Titanium containing ethane bridged hybrid mesoporous materials with uniform hexagonal arrangement are prepared by two different routes and characterized using several analytical techniques in this article, where they are highly hydrophobic and selectively epoxidize the αpinene to α-pinene oxide (with >99% selectivity).
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Ammoximation of ketones catalyzed by titanium-containing ethane bridged hybrid mesoporous silsesquioxane
TL;DR: The first example of ammoximation of bulky ketones over highly hydrophobic titanium incorporated ethane bridged hybrid mesoporous silsesquioxane with high selectivity of oximes is presented.