Charge Distribution in Cationic Molybdenum Imido Alkylidene <i>N</i>-Heterocyclic Carbene Complexes: A Combined X-ray, XAS, XES, DFT, Mössbauer, and Catalysis Approach

Benedikter, Mathis; Musso, Janis V.; Kesharwani, Manoj K.; Sterz, K. Leonard; Elser, Iris; Ziegler, Felix; Fischer, Felix R.; Plietker, Bernd; Frey, Wolfgang; Kästner, Johannes; Winkler, Mario; Slageren, Joris van; Nowakowski, Michał; Buchmeiser, Michael R.

doi:10.1021/acscatal.0c03978

Cited by 24 publications

(41 citation statements)

References 57 publications

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“…A change in the electronic structure or oxidation state by immobilization in the COF can thus be excluded Results of extended X-ray absorption fine structure (EXAFS) analysis, probing the local geometric structure around an X-ray absorbing atom of the Ru catalyst under homogeneous and immobilized conditions are shown in Figure 4, b. [20] The corresponding first shell scattering paths combined with coordination numbers, bond distances and Debye-Waller factors, which describe the static and dynamic disorder in the coordination shell, are collected in Figure S16 and Table S7. The results of the structure analysis for all samples are in good…”

Section: Resultsmentioning

confidence: 99%

Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity

Emmerling

Ziegler

Fischer

et al. 2021

Preprint

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Covalent organic frameworks (COFs) offer vast structural and chemical diversity enabling a wide and growing range of applications. While COFs are well-established as homogeneous catalysts, so far, their high and ordered porosity has scarcely been utilized to its full potential when it comes to spatially confined reactions in COF pores to alter the outcome of reactions. Here, we present a highly porous and crystalline, large-pore COF as catalytic support in diene ring-closing metathesis reactions, leading to increased macrocylization selectivity. COF pore-wall modification by immobilization of a Grubbs-Hoveyda-type catalyst via a mild silylation reaction provides a molecularly precise heterogeneous metathesis catalyst. An increased macro(mono)cyclization (MMC) selectivity over oligomerization (O) for the heterogeneous COF-catalyst (MMC:O = 1.30) of up to 44% compared to the homogeneous catalyst (MMC:O = 0.90) was observed along with a substrate-size dependency in selectivity, pointing to diffusion limitations induced by the pore confinement.

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Section: Resultsmentioning

confidence: 99%

Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity

Emmerling

Ziegler

Fischer

et al. 2021

Preprint

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“…Oskam and Schrock also found that the less electron-withdrawing the alkoxide ligand is, the faster the rate of interconversion. As the NHC ligand in 1 is a sigma-donor that effectively stabilizes the positive charge of Mo by donating an electron, 12 it can be assumed that the rate of syn – anti interconversion is of similar rate or faster than metathesis.…”

Section: Discussionmentioning

confidence: 99%

On the Origin of E-Selectivity in the Ring-Opening Metathesis Polymerization with Molybdenum Imido Alkylidene N-Heterocyclic Carbene Complexes

2021

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The understanding and control of stereoselectivity is a central aspect in ring-opening metathesis polymerization (ROMP). Herein, we report detailed quantum chemical studies on the reaction mechanism of E -selective ROMP of norborn-2-ene (NBE) with Mo( N -2,6-Me 2 -C 6 H 3 )(CHCMe 3 )(IMes)(OTf) 2 ( 1 , IMes = 1,3-dimesitylimidazol-2-ylidene) as a first step to stereoselective polymerization. Four different reaction pathways based on an ene syn or ene anti approach of NBE to either the syn - or anti -isomer of the neutral precatalyst have been studied. In contrast to the recently established associative mechanism with a terminal alkene, where a neutral olefin adduct is formed, NBE reacts directly with the catalyst via [2 + 2] cycloaddition to form molybdacyclobutane with a reaction barrier about 30 kJ mol –1 lower in free energy than via the formation of a catalyst–monomer adduct. However, the direct cycloaddition of NBE was only found for one out of four stereoisomers. Our findings strongly suggest that this stereoselective approach is responsible for E -selectivity and point toward a substrate-specific reaction mechanism in olefin metathesis with neutral Mo imido alkylidene N -heterocyclic carbene bistriflate complexes.

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“…In general, all NHCÀ W bond lengths are shorter than in their neural precursors, which can be attributed to a delocalization of the positive charge by the NHC. [7] In the same way, the alkoxide ligands are more tightly bound to the cationic metal centers, which is reflected in bond distances of only between 185.0 and 194.2 Å, whereas in the neutral complexes those are mostly > 200 Å. The alkylidene-W and W-oxo bond distances, on the contrary, do not significantly differ from those observed in neutral W oxo alkylidene NHC complexes.…”

Section: Chemcatchemmentioning

confidence: 96%

“…In earlier studies, this strategy was successfully utilized for the correlation of charge distribution and reactivity of cationic molybdenum imido alkylidene NHC complexes. [7] The kinetic profiles as well as TONs, E/Z-selectivity and reaction conditions are available from the Supporting Information. In addition to that, the turnover frequencies after 1 and 3 min (TOF 1min and TOF 3min ) were determined as average of three independent measurements.…”

Section: Chemcatchemmentioning

confidence: 99%

“…In general, the highest TOFs were observed for the RCM of 1,7-octadiene, which is in accordance with previous kinetic studies with cationic molybdenum imido alkylidene complexes. [7] Judging from the kinetic profiles of most catalysts, the reaction with 1,7-octadiene is virtually complete after a few minutes. A linear correlation (R 2 = 0.953) between the 13 C CH alkylidene shift of all tested complexes 5 a-d, 5 f-g, 10 a-b, 12, 5 b-MeCN and 5 c-MeCN and the TOF 1min was found (Figure S60, S.I.…”

Section: Chemcatchemmentioning

confidence: 99%

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Predicting Catalytic Activity from ¹³C_CH Alkylidene Chemical Shift in Cationic Tungsten Oxo Alkylidene N‐Heterocyclic Carbene Complexes

et al. 2021

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A series of cationic tungsten oxo alkylidene N-heterocyclic carbene (NHC) complexes was synthesized and structurally characterized by single crystal X-ray diffraction. The 13 C NMR chemical shifts of the alkylidene C atoms of these complexes were correlated with the diamagnetic, paramagnetic and spinorbit chemical shifts calculated by DFT. A good correlation (R 2 = 0.90) between the DFT isotropic chemical shifts and the experimental chemical shift as well as a strong correlation between the DFT isotropic chemical shifts and the TOF 1min for the RCM of 1,7-octadiene was found. Further, a comparison of the catalyst geometries allowed for assigning tetracoordinate pseudotetrahedral catalysts to the most deshielded alkylidenes and to the highest TOF 1min , pentacoordinate square-planar catalysts to the intermediate deshielded alkylidenes and intermediate TOF 1min , and hexacoordinate and octahedral catalyst to the most shielded alkylidene and lowest TOF 1min . Analysis of the magnetic shielding tensors allowed for ascribing variations in the chemical shifts to electronic transitions between occupied molecular orbitals corresponding to the alkylidene-C and alkylidene-H σ-bonds and the empty molecular orbital corresponding to the W-alkylidene σ*-bond.

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Charge Distribution in Cationic Molybdenum Imido Alkylidene N-Heterocyclic Carbene Complexes: A Combined X-ray, XAS, XES, DFT, Mössbauer, and Catalysis Approach

Cited by 24 publications

References 57 publications

Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity

Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity

On the Origin of E-Selectivity in the Ring-Opening Metathesis Polymerization with Molybdenum Imido Alkylidene N-Heterocyclic Carbene Complexes

Predicting Catalytic Activity from ¹³C_CH Alkylidene Chemical Shift in Cationic Tungsten Oxo Alkylidene N‐Heterocyclic Carbene Complexes

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Charge Distribution in Cationic Molybdenum Imido Alkylidene N-Heterocyclic Carbene Complexes: A Combined X-ray, XAS, XES, DFT, Mössbauer, and Catalysis Approach

Cited by 24 publications

References 57 publications

Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity

Olefin Metathesis in Confinement: Towards Covalent Organic Framework Scaffolds for Increased Macrocyclization Selectivity

On the Origin of E-Selectivity in the Ring-Opening Metathesis Polymerization with Molybdenum Imido Alkylidene N-Heterocyclic Carbene Complexes

Predicting Catalytic Activity from 13CCH Alkylidene Chemical Shift in Cationic Tungsten Oxo Alkylidene N‐Heterocyclic Carbene Complexes

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Predicting Catalytic Activity from ¹³C_CH Alkylidene Chemical Shift in Cationic Tungsten Oxo Alkylidene N‐Heterocyclic Carbene Complexes