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Osaka (11, July): In a recent study published in ChemCatChem (Wiley-VCH), researchers developed recyclable iron-oxide nanoparticles which catalyze the synthesis of organosilicon compounds
Organosilicon compounds are indispensable in materials science for manufacturing rubber, plastic and various other polymers. They are synthesized by introducing silicon groups into organic compounds, which requires the use of catalysts to facilitate and expedite the reaction. Traditionally, platinum is the go-to catalyst for this reaction, however, organic chemists are also experimenting with easily available transition metals such as iron. A research group led by Yasushi Obora at Kansai University has now reported the high potential of iron-oxide nanoparticles in efficiently carrying this chemical reaction forward.
Organosilicon compounds are indispensable in materials science for manufacturing rubber, plastic and various other polymers. They are synthesized by introducing silicon groups into organic compounds, which requires the use of catalysts to facilitate and expedite the reaction. Traditionally, platinum is the go-to catalyst for this reaction, however, organic chemists are also experimenting with easily available transition metals such as iron. A research group led by Yasushi Obora at Kansai University has now reported the high potential of iron-oxide nanoparticles in efficiently carrying this chemical reaction forward.
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Nattaporn Kaittidanusorn,Tatsuki Nagata,Methasit Juthathan,Kazuki Tabaru, Nattapon Siengdung,Prompong Pienpinijtham,Tatsuya Tanaka,Takeyuki Suzuki,Thawatchai Tuntulani,Pannee Leeladee,Yasushi Obora
RESULTS IN CHEMISTRY (2024): 101398
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MATERIALS TRANSACTIONSno. 11 (2023): 2615-2621
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Polymer Journalno. 11 (2023): 1119-1128
Nobuki Katayama,Yasushi Obora
Tetrahedron Letters (2023): 154798-154798
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