Metal-ligand Cooperativity in Low-valent Iron Complexes for Small Molecule Activation
Title | Metal-ligand Cooperativity in Low-valent Iron Complexes for Small Molecule Activation PDF eBook |
Author | Nicolas I. Regenauer |
Publisher | |
Pages | 0 |
Release | 2023 |
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Low-Valent Iron and Cobalt Isocyanide Complexes
Title | Low-Valent Iron and Cobalt Isocyanide Complexes PDF eBook |
Author | Charles Cameron Mokhtarzadeh |
Publisher | |
Pages | 434 |
Release | 2017 |
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ISBN |
This dissertation describes the targeted attempts at the generation of transition metal species that function as precise electronic structure mimics to the well known spin triplet (S =1) metal carbonyls fragments Fe(CO)4 and CpCo(CO). These unsaturated fragments have been shown to display a wide range reactivity, and competency towards important reaction chemistry such as alkane and N2 binding, and E-H bond activation due to a unique interplay of a strong ligand field, formal dn count, and orbital symmetry, rendering these fragments primed for bond activation. Accordingly, ligand architectures that can accurately mimic the ligand field provided by CO to kinetically stabilize these fragments could provide new inroads to novel small molecule activation pathways. To this end, sterically encumbering m-terphenyl isocyanides serve as isolobal ligand surrogates for carbon monoxide (CO). Additionally isocyanides have the added benefit of providing kinetic stabilization by virtue of readily tunable isocyano-R (CN-R) group. The first section of this dissertation describes the synthesis and protonation of an encumbered tetra-isocyanide iron dianion, Na2[Fe(CNArMes2)4] (ArMes2 = 2,6-(2,4,6 --Me3C6H2)2C6H3), which serves as a platform for targeting species of the formulation Fe(CNArMes2)4. It is shown that the reactivity of the electronically unsaturated Fe(CNR)4 fragment upon protonation of Na2[Fe(CNArMes2)4] and subsequent alkylation of Na[HFe(CNArMes2)4], yields the dinitrogen stabilized species Fe(N2)(CNArMes2)4. Fe(N2)(CNArMes2)4 is shown to readily undergo intramolecular C-H activation of the ligand scaffold upon liberation N2 under ambient conditions purportedly through and insipient [Fe(CNArMes2)4] fragment. Further more, ability of Na2[Fe(CNArMes2)4] to facilitate the reductive disproportionation of CO2, in addition to CO2 capture with electrophilic silyl sources is presented culminating in a rare class of low valent Fe-aminocarbyne complexes. The second vignette of this dissertation focuses on the generation of species that mimic the formulation CpCo(L). It is shown that with less encumbering m-terphenyl isocyanides that aggregation akin to the unsaturated carbonyl congeners is realized. Use of encumbering m-terphenyl isocyanides provides access to the three memebered electron transfer series [([mu]2-CNArMes2)2[CpCo]2]n (n = 0,-1, -2). Notably, this series is the first of its kind to span all three ostensible electronic states (e.g. d8-d8, d8-d9, and d9-d9), previously unavailable with other [pi]-acidic ligand frameworks. Additionally this allows for a systematic reassessment of the metal-metal bonding within this class of dimeric species. Evidence is put forth in favor of no M-M bonding interactions occur within these systems and the integrity of the dimeric framework is in fact mitigated through a unique interplay of the metal d-manifold and the isocyanide [pi]*-system. Modulation of the steric profile of the m-terphenyl isocyanide and the Cp unit to Cp* so as to increase the steric pressure provides access to the first reported mono-nuclear Cp*Co(N2)L fragments. It is shown that these species function as viable sources of Cp*Co(CNR) for a number of bond activation processes including Si-H, H-H, and P-P bond scission. Moreover, the reactivity of these species culminates with the isolation of the second example of a structurally authenticated transition metal nitrous oxide (N2O) adduct, which exhibits an unprecedented [eta]2-(N,N) coordination mode to Co. Finally, the reduction of the encumbered Cp*Co(CNArTripp2) (CNArTripp2 2,6-(2,4,6-(i-Pr)3C6H3)2C6H3) fragment provide access to the unique dianion K2[Cp*Co≡CNArTripp2]. It is shown that the dianion K2[Cp*Co≡CNArTripp2] exhibits 3-fold bonding between Co and the isocyanide -Ciso through an extreme case of M-->(CN) [pi]*-back donation and gives rise to the first example of a Co-carbyne complex. The reactivity and electronic structure are presented for K2[Cp*Co≡CNArTripp2] and it is concluded that this reactive dianion behaves as a potent metal based nucleophile and source of [Cp*Co(CNR)]2- for a number of bond activation process.
Strategic Ligand Design as a Route to Complexes for Small Molecule Activation and Catalysis
Title | Strategic Ligand Design as a Route to Complexes for Small Molecule Activation and Catalysis PDF eBook |
Author | Michael Joseph Sgro |
Publisher | |
Pages | 562 |
Release | 2013 |
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High- and Low-Valent tris-N-Heterocyclic Carbene Iron Complexes
Title | High- and Low-Valent tris-N-Heterocyclic Carbene Iron Complexes PDF eBook |
Author | Carola S. Vogel |
Publisher | Springer Science & Business Media |
Pages | 145 |
Release | 2012-02-03 |
Genre | Science |
ISBN | 3642272533 |
Carola Vogel’s PhD thesis focuses on the synthesis, and structural and spectroscopic characterization of the first high valent iron nitride complexes. In her interdisciplinary and collaborative research Carola also describes the reactivity studies of a unique iron (V) nitride complex with water. These studies show that quantitative yields of ammonia are given at ambient conditions. High valent iron nitride and oxo species have been proposed as key intermediates in many bio-catalytic transformations, but until now these species have proven exceedingly challenging to isolate and study. Iron complexes in high oxidation states can thus serve as models for iron-containing enzymes to help us understand biological systems or aid our development of more efficient industrial catalysts.
Activation of Small Molecules by Low Valent Corrole Metal Complexes
Title | Activation of Small Molecules by Low Valent Corrole Metal Complexes PDF eBook |
Author | Inna Luobeznov |
Publisher | |
Pages | 96 |
Release | 2007 |
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ISBN |
Small Molecule Activation Mediated by Metal-ligand Cooperation Via a Dearomatization/rearomatization Reaction Sequence Using Redox Active Pyridine Based Ligand-systems in Transition Metal Complexes
Title | Small Molecule Activation Mediated by Metal-ligand Cooperation Via a Dearomatization/rearomatization Reaction Sequence Using Redox Active Pyridine Based Ligand-systems in Transition Metal Complexes PDF eBook |
Author | Rasmus Stichauer |
Publisher | |
Pages | 0 |
Release | 2023 |
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Activation of Small Molecules
Title | Activation of Small Molecules PDF eBook |
Author | William B. Tolman |
Publisher | John Wiley & Sons |
Pages | 382 |
Release | 2006-12-13 |
Genre | Science |
ISBN | 3527609377 |
The first to combine both the bioinorganic and the organometallic view, this handbook provides all the necessary knowledge in one convenient volume. Alongside a look at CO2 and N2 reduction, the authors discuss O2, NO and N2O binding and reduction, activation of H2 and the oxidation catalysis of O2. Edited by the highly renowned William Tolman, who has won several awards for his research in the field.