Michaela Flock scite author profile

The structures and interconversion pathway between the [Cu2(μ-η2:η2-O2)]2+ and [Cu2(μ-O)2]2+ isomers of model systems with three ammonia ligands per copper center are investigated using both density functional theory with a B3LYP functional (B3LYP-DFT) and multiconfigurational perturbation theory (CASSCF/CASPT2). Both methods lead to thoroughly different results for the relative energy of both isomers. The CASPT2 results reveal an intrinsic stabilization of the [Cu2(μ-O)2]2+ isomer, thus indicating that the presence of a [Cu2(μ-η2:η2-O2)]2+ core in the respiratory proteins must be brought back to the presence of bulky capping ligands and/or to external effects caused by solvents and counterions. Both isomers are found to be diamagnetic. For the [Cu2(μ-η2:η2-O2)]2+ isomer an antiferromagnetic coupling constant, −2J, of 4209 cm-1 is calculated at the CASPT2 level. On the other hand, in the [Cu2(μ-O)2]2+ isomer, the lowest 3B u state is calculated at 9316 cm-1, but is found to correspond instead to an oxygen π* → σ* excitation.

show abstract

The Role of 2,6‐Diaminopyridine Ligands in the Isolation of an Unprecedented, Low‐Valent Tin Complex

Flock

Suljanovic

Torvisco

et al. 2013

Chemistry A European J

View full text Add to dashboard Cite

Stabilization of the central atom in an oxidation state of zero through coordination of neutral ligands is a common bonding motif in transition-metal chemistry. However, the stabilization of main-group elements in an oxidation state of zero by neutral ligands is rare. Herein, we report that the transamination reaction of the DAMPY ligand system (DAMPY=2,6-[ArNH-CH2 ]2 (NC5 H3 ) (Ar=C6 H3 -2,6-iPr2 )) with Sn[N(SiMe3 )2 ]2 produces the DIMPYSn complex (DIMPY=(2,6-[ArNCH]2 (NC5 H3 )) with the Sn atom in a formal oxidation state of zero. This is the first example of a tin compound stabilized in a formal oxidation state of zero by only one donor molecule. Furthermore, three related low-valent Sn(II) complexes, including a [DIMPYSn(II) Cl](+) [SnCl3 ](-) ion pair, a bisstannylene DAMPY{Sn(II) [N(SiMe3 )2 ]2 }2 , and the enamine complex MeDIMPYSn(II) , were isolated. Experimental results and the conclusions drawn are also supported by theoretical studies at the density functional level of theory and (119) Sn Mössbauer spectroscopy.

show abstract

Influence of Ligand Modifications on Structural and Spectroscopic Properties in Terphenyl Based Heavier Group 14 Carbene Homologues

et al. 2014

View full text Add to dashboard Cite

The synthesis and characterization of a series of heavier group 14 element (Ge, Sn, and Pb) carbene homologues based on the electronically modified, 2,6-dimesityl substituted terphenyl ligands Ar # -3,5-i Pr 2 , Ar # -4-SiMe 3 , and Ar # -4-Cl (Ar # -3,5-i Pr 2 = C 6 H 2 -2,6-Mes 2 -3,5-i Pr 2 ; Ar # -4-Cl = C 6 H 2 -2,6-Mes 2 -4-Cl; Ar # -4-SiMe 3 = C 6 H 2 -2,6-Mes 2 -4-SiMe 3 ; Mes = C 6 H 2 -2,4,6-Me 3 ) are presented. The consequences of introducing electron withdrawing and -releasing substituents on the solid state structures of the newly synthesized germylenes, stannylenes, and plumbylenes as well as their Mossbauer, NMR and UV−vis spectroscopic properties are presented and discussed in the context of a second order Jahn−Teller type mixing of frontier orbitals with appropriate symmetry. Experimental findings were supported by DFT calculations. More electron withdrawing ligands lead to a bonding situation with higher contribution of p-orbitals from the central heavier group 14 element in σ-bonding toward the ligands and thus increased s-electron character of the lone pair. Furthermore, this results in an increase in the energy separation between the frontier orbitals. Experimentally, these changes are manifested in narrower bending angles at the heavy tetrel atoms and hypsochromic in their UV−vis spectra. In contrast, derivatives of more electron rich m-terphenyl ligands are characterized by a smaller HOMO− LUMO gap and wider interligand angles.

show abstract

Rearrangement of Cyclic Silanes with Aluminum Trichloride

et al. 2007

View full text Add to dashboard Cite

The Al(Fe)Cl3-catalyzed rearrangement of monocyclic permethylated oligosilanes was investigated for different isomers in the range of Me14Si7 to Me28Si14. The reactions of the smaller isomers (Me14Si7 to Me20Si10) resulted in the selective formation of single compounds. In contrast to this, the rearrangements of isomers Me22Si11, Me24Si12, Me26Si13, and Me28Si14 yielded mixtures of isomers. Several of the obtained compounds could be characterized unambiguously by single crystal structure analysis. On the basis of these data and careful analysis of 29Si NMR data we conclude that in all cases cyclopentasilanes were formed as the final products.

show abstract

Evaluating the Activation Barriers for Transition Metal N₂O Reactions

et al. 2001

View full text Add to dashboard Cite

The reactions of 3d transition metal atoms with N 2 O, producing the metal oxide and N 2 , have been studied by means of density functional theory and the coupled cluster method CCSD(T). The importance of charge transfer in the reaction mechanism has been investigated. For Sc, Ti, and V, the transition state is very reagentlike, and almost no charge transfer occurs. On the other hand, charge transfer from the metal 4s orbital into the N 2 O LUMO becomes more important when moving to the right in the 3d series. The reactions with Sc, Ti, and V proceed almost without energy barriers, whereas for Mn, Fe barriers around 9 kcal/mol are calculated. For transition metal atoms with a 3d n 4s 2 ground-state configuration, a correlation is found between the activation barriers and the binding energy of the formed metal oxide. The 3d n+1 4s 1 configuration gives rise to a higher reactivity than the 3d n 4s 2 configuration.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Michaela Flock

Theoretical Study of the Interconversion of O₂-Binding Dicopper Complexes

The Role of 2,6‐Diaminopyridine Ligands in the Isolation of an Unprecedented, Low‐Valent Tin Complex

Influence of Ligand Modifications on Structural and Spectroscopic Properties in Terphenyl Based Heavier Group 14 Carbene Homologues

Rearrangement of Cyclic Silanes with Aluminum Trichloride

Evaluating the Activation Barriers for Transition Metal N₂O Reactions

Contact Info

Product

Resources

About

Michaela Flock

Theoretical Study of the Interconversion of O2-Binding Dicopper Complexes

The Role of 2,6‐Diaminopyridine Ligands in the Isolation of an Unprecedented, Low‐Valent Tin Complex

Influence of Ligand Modifications on Structural and Spectroscopic Properties in Terphenyl Based Heavier Group 14 Carbene Homologues

Rearrangement of Cyclic Silanes with Aluminum Trichloride

Evaluating the Activation Barriers for Transition Metal N2O Reactions

Contact Info

Product

Resources

About

Theoretical Study of the Interconversion of O₂-Binding Dicopper Complexes

Evaluating the Activation Barriers for Transition Metal N₂O Reactions