Shinichi Yamabe scite author profile

Density functional theory calculations were conducted on the title reactions with water molecules. Malonaldehyde, acetylacetone, and malonic acid were adopted as reactants. A reaction of malonaldehyde and (2 + 2) water molecules was found to proceed by a small (ca. 7 kcal/mol) activation energy. Two are reactant and two are catalyst molecules, respectively. The intramolecular hydrogen bond in the enol form is disrupted by the intermolecular one. Tautomerization transition-state geometries for acetylacetone and malonic acid are similar to that of malonaldehyde. Without the enhanced reactivity of water hydrogen-bond networks, tautomerization reactions undergo large activation energies. Various reaction models of (malonaldehyde) n (n = 2, 3, and 4) have given the energetic result. The keto−enol tautomerization has an analogy with the bimolecular nucleophilic elimination (E2) mechanism.

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Theoretical Study of Hydrolysis and Condensation of Silicon Alkoxides

Okumoto

Fujita

Yamabe

1998

J. Phys. Chem. A

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The two title reactions were investigated by means of ab initio molecular orbital calculations. Under neutral conditions, the hydrolysis of methylmethoxydihydroxysilane was examined, and the water-trimer cluster was found to be a reactant for ready bond interchange. The condensation of methyltrihydroxysilane was caused by the participation of the water dimer. Two of the observed reactions involved a front-side nucleophilic attack to the silicon center or a similar mechanism. Acid-and base-promoted hydrolyses were also examined, and their enhanced reactivities were ascribed to the stability of the silyl cation and a hypervalent intermediate, respectively.

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Proton-induced switching of metal-metal interactions in dinuclear ruthenium and osmium complexes bridged by 2,2'-bis(2-pyridyl)bibenzimidazole

Haga¹,

Ano²,

Kano³

et al. 1991

Inorg. Chem.

150

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Characteristic Changes of Bond Energies for Gas-Phase Cluster Ions of Halide Ions with Methane and Chloromethanes

et al. 2001

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Gas-phase equilibria for clustering reactions of both halide ions (X -) with methane and chloride ions with chloromethanes (CH 4-m Cl m ) were measured with a pulsed electron-beam high-pressure mass spectrometer. The bond energies were found to show irregular decreases for F -(CH 4 ) n , with n ) 6 and 8, for Cl -(CH 3 Cl) n , with n ) 2, 4, and 6, and for Cl -(CH 2 Cl 2 ) n , with n ) 2 and 4. These even numbers indicate that the core ions are preferably solvated by the ligands with these n values. The theoretical calculation revealed that the cluster ion Cl -(CCl 4 ) has the structure of [Cl...ClCCl 3 ]rather than Cl -...Cl 3 CCl. The unexpectedly large bond energy for Cl -(CCl 4 ) (13.4 kcal/mol) is due to the charge dispersal in the complex [Cl...ClCCl 3 ] -.

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Shinichi Yamabe

Solvation of halide ions with water and acetonitrile in the gas phase

Reaction Paths of Keto−Enol Tautomerization of β-Diketones

Theoretical Study of Hydrolysis and Condensation of Silicon Alkoxides

Proton-induced switching of metal-metal interactions in dinuclear ruthenium and osmium complexes bridged by 2,2'-bis(2-pyridyl)bibenzimidazole

Characteristic Changes of Bond Energies for Gas-Phase Cluster Ions of Halide Ions with Methane and Chloromethanes

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