Hui Chen scite author profile

This theoretical study establishes ways of controlling and enabling an uncommon chemical reaction, the displacement reaction, B:---(XY) → (BX) + + :Y − , which is nascent from a B:---(XY) halogen bond (XB) by nucleophilic attack of the base, B:, on the halogen, X. In most of the 14 cases examined, these reactions possess high barriers either in the gas phase (where the XY bond dissociates to radicals) or in solvents such as CH 2 Cl 2 and CH 3 CN (which lead to endothermic processes). Thus, generally, the XB species are trapped in deep minima, and their reactions are not allowed without catalysis. However, when an oriented-external electric field (OEEF) is directed along the B---X---Y reaction axis, the field acts as electric tweezers that orient the XB along the f ield's axis, and intensely catalyze the process, by tens of kcal/mol, thus rendering the reaction allowed. Flipping the OEEF along the reaction axis inhibits the reaction and weakens the interaction of the XB. Furthermore, at a critical OEEF, each XB undergoes spontaneous and barrier-free reaction. As such, OEEF achieves quite tight control of the structure and reactivity of XB species. Valence bond modeling is used to elucidate the means whereby OEEFs exert their control.

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Valence-Inverted States of Nickel(II) Complexes Perform Facile C–H Bond Activation

Wang

Shaik

et al. 2022

J. Am. Chem. Soc.

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Valence-inverted reactivity (VIR) is discovered here through high-level computations of excited states of Ni(II) complexes that are generated by triplet energy transfer. For example, the so-generated 3 [(Ar)(bpy)Ni II (Br)] species possesses a valence-inverted occupancy, d xy 1 d xz 1 d x 2 −y 2 2 , wherein the uppermost d x 2 −y 2 orbital is metal−ligand antibonding. This state promotes C−H bond activation of THF and its cross-coupling to the aryl ligand. Thus, due to the metal−ligand antibonding character of d x 2 −y 2 , the d xy 1 d x 2 −y 2 2 subshell opens a Ni-coordination site by shifting the bidentate bipyridine ligand to monodentate plus a dangling pyridine. The tricoordinate Ni(II) intermediate inserts into a C−H bond of THF, transfers a proton to the dangling pyridine moiety, and eventually generates an arylated THF by reductive-coupling. The calculated high kinetic isotope effect is in accord with experiment, both revealing C−H activation. The VIR pattern is novel, its cross-coupling reaction is highly useful, and it is generally expected to occur in other d 8 complexes.

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Chromium-catalyzed stereodivergent E- and Z-selective alkyne hydrogenation controlled by cyclic (alkyl)(amino)carbene ligands

Ling

Long

et al. 2023

Nat Commun

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The hydrogenation of alkynes allows the synthesis of olefins, which are important feedstock for the materials, pharmaceutical, and petrochemical industry. Thus, methods that enable this transformation via low-cost metal catalysis are desirable. However, achieving stereochemical control in this reaction is a long-standing challenge. Here, we report on the chromium-catalyzed E- and Z-selective olefin synthesis via hydrogenation of alkynes, controlled by two carbene ligands. A cyclic (alkyl)(amino)carbene ligand that contains a phosphino anchor enables the hydrogenation of alkynes in a trans-addition manner, selectively forming E-olefins. With an imino anchor-incorporated carbene ligand, the stereoselectivity can be switched, giving mainly Z-isomers. This ligand-enabled geometrical stereoinversion strategy by one metal catalysis overrides common methods in control of the E- and Z-selectivity with two different metal catalysis, allowing for highly efficient and on-demand access to both E- and Z-olefins in a stereo-complementary fashion. Mechanistic studies indicate that the different steric effect between these two carbene ligands may mainly dominate the selective forming E- or Z-olefins in control of the stereochemistry.

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Hui Chen

Oriented External Electric Fields: Tweezers and Catalysts for Reactivity in Halogen-Bond Complexes

Valence-Inverted States of Nickel(II) Complexes Perform Facile C–H Bond Activation

Chromium-catalyzed stereodivergent E- and Z-selective alkyne hydrogenation controlled by cyclic (alkyl)(amino)carbene ligands

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