Julia Borowka scite author profile

The reaction of nido-[1,2-(Cp*RuH)(2)B(3)H(7)] (1a, Cp*=η(5)-C(5)Me(5)) with [Mo(CO)(3)(CH(3)CN)(3)] under mild conditions yields the new metallaborane arachno-[(Cp*RuCO)(2)B(2)H(6)] (2). Compound 2 catalyzes the cyclotrimerization of a variety of internal- and terminal alkynes to yield mixtures of 1,3,5- and 1,2,4-substituted benzenes. The reactivities of nido-1a and arachno-2 with alkynes demonstrates that a change in geometry from nido to arachno drives a change in the reaction from alkyne-insertion to catalytic cyclotrimerization, respectively. Density functional calculations have been used to evaluate the reaction pathways of the cyclotrimerization of alkynes catalyzed by compound 2. The reaction involves the formation of a ruthenacyclic intermediate and the subsequent alkyne-insertion step is initiated by a [2+2] cycloaddition between this intermediate and an alkyne. The experimental and quantum-chemical results also show that the stability of the metallacyclic intermediate is strongly dependent on the nature of the substituents that are present on the alkyne.

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Computational studies on the copper(II) catalyzed Michael reaction

Borowka

Wüllen

2006

Journal of Organometallic Chemistry

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Quantum Chemical Calculations on the Copper(II) Catalyzed Michael Reaction

Borowka¹

2007

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Julia Borowka

DNA (6−4) Photolesion Repair Occurs in the Electronic Ground State of the TT Dinucleotide Dimer Radical Anion

A Mechanistic Study of the Utilization of arachno‐Diruthenaborane [(Cp*RuCO)₂B₂H₆] as an Active Alkyne‐Cyclotrimerization Catalyst

Computational studies on the copper(II) catalyzed Michael reaction

Quantum Chemical Calculations on the Copper(II) Catalyzed Michael Reaction

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Julia Borowka

DNA (6−4) Photolesion Repair Occurs in the Electronic Ground State of the TT Dinucleotide Dimer Radical Anion

A Mechanistic Study of the Utilization of arachno‐Diruthenaborane [(Cp*RuCO)2B2H6] as an Active Alkyne‐Cyclotrimerization Catalyst

Computational studies on the copper(II) catalyzed Michael reaction

Quantum Chemical Calculations on the Copper(II) Catalyzed Michael Reaction

Contact Info

Product

Resources

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A Mechanistic Study of the Utilization of arachno‐Diruthenaborane [(Cp*RuCO)₂B₂H₆] as an Active Alkyne‐Cyclotrimerization Catalyst