Tadahiro Matsuno scite author profile

The first "heavy" cyclobutadiene dianions (CBD2-), tetrakis(di-tert-butylmethylsilyl)-1,2-disila-3,4-digermacyclobutadiene dianion 22- and tetrakis(di-tert-butylmethylsilyl)tetrasilacyclobutadiene dianion 42-, have been synthesized by the reductive dehalogenation of the corresponding precursors with potassium graphite in THF. Structural characterization of [K+(thf)2]2.22- and [K+(thf)2]2.42- has been achieved by X-ray crystallography, showing that the central four-membered ring is significantly folded and has two eta2-1,3-coordinated potassium cations accommodated above and below the ring. The "heavy" CBD2-'s 22- and 42- were found to be nonaromatic compounds, a conclusion that was supported by nucleus-independent chemical shift (NICS) calculations showing a lack of diatropic ring current effects.

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Cyclotetrasilenyl: The First Isolable Silyl Radical

Sekiguchi

2001

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Synthesis, Characterization, and Crystal Structure of Cyclotrisilene: A Three-Membered Ring Compound with a Si−Si Double Bond

Ichinohe

Matsuno

Sekiguchi

1999

Angew. Chem. Int. Ed.

106

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Tetrasilacyclobutadiene (^tBu₂MeSi)₄Si₄: A New Ligand for Transition-Metal Complexes

et al. 2005

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The anionic complex of [tetrakis(di-tert-butylmethylsilyl) tetrasilacyclobutadiene]dicarbonylcobalt, [(R4Si4)Co(CO)2]-.K+ (R = SiMetBu2) 2-.K+, was synthesized by the reaction of tetrasilacyclobutadiene dianion dipotassium salt [R4Si4]2-.2K+ 1 with an excess of CpCo(CO)2 in THF. X-ray analysis of 2-.[K+(diglyme)2(THF)] showed an almost planar Si4 ring of rectangular shape with an in-plane arrangement of the silyl substituents. 2- was also prepared as a free anion with the [K+[2.2.2]cryptand] counterion by complexation with [2.2.2]cryptand and as a dimer {2-.[K+(THF)3]}2 without complexing reagents in THF. Such a tetrasilacyclobutadiene fragment represents a new type of ligand for Co complexes, being the first example of a cyclobutadiene containing only heavier group 14 elements.

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Cyclotetrasilenide Ion: A Reversible Redox System of Cyclotetrasilenyl Cation, Radical, and Anion

Matsuno

Ichinohe

Sekiguchi

2002

Angew. Chem. Int. Ed.

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Alkali‐metal derivatives of cyclotetrasilenide (1−) were obtained by the treatment of cyclotetrasilenylium ion (1+) or cyclotetrasilenyl radical (1.) with Li, Na, and KC8 in diethyl ether. X‐ray crystallographic analysis of 1− Li+ suggests that it has a cyclotetrasilene structure with a Si=Si bond in the ring, and that the lithium cation interacts with the three silicon atoms in the four‐membered‐ring skeleton. The ion 1− is readily oxidized to 1. and 1+; this is a reversible chemical redox system.

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