Juliane Krüger scite author profile

The hydrodefluorination (HDF) of fluoroalkenes in the presence of a variety of titanium catalysts was studied with respect to scope, selectivity, and mechanism. Optimization revealed that the catalyst requires low steric bulk and high electron density; secondary silanes serve as the preferred hydride source. A broad range of substrates yield partially fluorinated alkenes, such as previously unknown (Z)-1,2-(difluorovinyl)ferrocene. Mechanistic studies indicate a titanium(III) hydride as the active species, which forms a titanium(III) fluoride by H/F exchange with the substrate. The HDF step can follow both an insertion/elimination and a σ-bond metathesis mechanism; the E/Z selectivity is controlled by the substrate. The catalysts' ineffieciency towards fluoroallenes was rationalized by studying their reactivity towards Group 6 hydride complexes.

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How a Thermally Unstable Metal Hydrido Complex Can Yield High Catalytic Activity Even at Elevated Temperatures

Ehm

Krüger

Lentz

2016

Chemistry A European J

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Despite their instability in ethereal solvents, organotitanium hydride catalysts are successfully employed in catalysis at moderate to high temperatures (110 °C), even in the presence of alcohols. It is shown computationally (bond dissociation energy (BDE) analysis and energetic profile for regeneration) and experimentally (EPR studies and kinetic studies), with the specific example of hydrodefluorination (HDF), that despite the long standing belief, regeneration of Ti-H bonds from Ti-F bonds using silanes is endergonic. The resulting low concentration of Ti-H species is crucial for the catalytic stability of those systems. The resting state in the catalysis is a Ti-F species. The most promising silanes for regeneration are not the ones that have the strongest Si-F bond, but the ones that show the largest difference in Si-F and Si-H BDEs.

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Competition of Nucleophilic Aromatic Substitution, σ‐Bond Metathesis, and syn Hydrometalation in Titanium(III)‐Catalyzed Hydrodefluorination of Arenes

Krüger

Leppkes

Ehm

et al. 2016

Chemistry An Asian Journal

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Several functionalized and non-functionalized perfluoroarenes were catalytically transformed into their para-hydrodefluorinated products by using catalytic amounts of titanocene difluoride and stoichiometric amounts diphenylsilane. Turnover numbers of up to 93 were observed. Solution density functional theory calculations at the M06-2X/TZ(PCM)//M06-2X/TZ(PCM) level of theory provided insight into the mechanism of Ti -catalyzed aromatic hydrodefluorination. Two different substrate approaches, with a Ti-F interaction (pathway A) and without a Ti-F interaction (pathway B), are possible. Pathway A leads to a σ-bond metathesis transition state, whereas pathway B proceeds by means of a two-step mechanism through a syn-hydrometalation intermediate or through a Meisenheimer intermediate. Both pathways are competitive over a broad range of substrates.

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Improving selectivity in catalytic hydrodefluorination by limiting S_NV reactivity

2016

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Catalytic hydrodefluorination of perfluoroallylbenzene with CpTiH in THF is unselective and yields a variety of previously unknown compounds, predominantly activated in the allylic position. Several different mechanisms have been examined in detail using solvent corrected (THF) DFT(M06-2X) calculations for the archetypal perfluorinated olefin perfluoropropene and perfluoroallylbenzene: (a) single electron transfer, (b) hydrometallation/fluoride elimination, (c) σ-bond metathesis (allylic or vinylic), and (d) nucleophilic vinylic substitution (SV, w/o Ti-F contacts in the TS). SV is shown to be a competitive mechanism to hydrometallation and proceeds via ionic species from which F-elimination is facile and unselective leading to low selectivity in polar solvents. Subsequent experiments show that selectivity can be increased in a non-polar solvent.

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Synthesis of fluorinated geminal diisocyanides stabilized on a transition metal

Frank

Krüger

Lentz

2011

Journal of Fluorine Chemistry

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Juliane Krüger

Titanium‐Catalyzed Vinylic and Allylic CF Bond Activation—Scope, Limitations and Mechanistic Insight

How a Thermally Unstable Metal Hydrido Complex Can Yield High Catalytic Activity Even at Elevated Temperatures

Competition of Nucleophilic Aromatic Substitution, σ‐Bond Metathesis, and syn Hydrometalation in Titanium(III)‐Catalyzed Hydrodefluorination of Arenes

Improving selectivity in catalytic hydrodefluorination by limiting S_NV reactivity

Synthesis of fluorinated geminal diisocyanides stabilized on a transition metal

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About

Juliane Krüger

Titanium‐Catalyzed Vinylic and Allylic CF Bond Activation—Scope, Limitations and Mechanistic Insight

How a Thermally Unstable Metal Hydrido Complex Can Yield High Catalytic Activity Even at Elevated Temperatures

Competition of Nucleophilic Aromatic Substitution, σ‐Bond Metathesis, and syn Hydrometalation in Titanium(III)‐Catalyzed Hydrodefluorination of Arenes

Improving selectivity in catalytic hydrodefluorination by limiting SNV reactivity

Synthesis of fluorinated geminal diisocyanides stabilized on a transition metal

Contact Info

Product

Resources

About

Improving selectivity in catalytic hydrodefluorination by limiting S_NV reactivity