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1. Ligand‐Controlled Regiodivergence in Nickel‐Catalyzed Hydroarylation and Hydroalkenylation of Alkenyl Carboxylic Acids**

   https://doi.org/10.1002/anie.202010840  

   Li, Zi‐Qi ; Fu, Yue ; Deng, Ruohan ; Tran, Van T. ; Gao, Yang ; Liu, Peng ; Engle, Keary M. ( October 2020 , Angewandte Chemie International Edition)

   A nickel‐catalyzed regiodivergent hydroarylation and hydroalkenylation of unactivated alkenyl carboxylic acids is reported, whereby the ligand environment around the metal center dictates the regiochemical outcome. Markovnikov hydrofunctionalization products are obtained under mild ligand‐free conditions, with up to 99 % yield and >20:1 selectivity. Alternatively, anti‐Markovnikov products can be accessed with a novel 4,4‐disubstituted Pyrox ligand in excellent yield and >20:1 selectivity. Both electronic and steric effects on the ligand contribute to the high yield and selectivity. Mechanistic studies suggest a change in the turnover‐limiting and selectivity‐determining step induced by the optimal ligand. DFT calculations reveal that in the anti‐Markovnikov pathway, repulsion between the ligand and the alkyl group is minimized (by virtue of it being 1° versus 2°) in the rate‐ and regioselectivity‐determining transmetalation transition state.

    

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2. Water-Soluble Pd Nanoparticles for the Anti-Markovnikov Oxidation of Allyl Benzene in Water

   https://doi.org/10.3390/nano13020348  

   Avila, Edwin ; Nixarlidis, Christos ; Shon, Young-Seok ( January 2023 , Nanomaterials)

   The catalytic activity and selectivity of two different water-soluble palladium nanoparticles capped with 5-(trimethylammonio)pentanethiolate and 6-(carboxylate)hexanethiolate ligands are investigated using the catalytic reaction of allyl benzene. The results show that the regioselective transformation of allyl benzene to 3-phenylpropanal occurs at room temperature and under atmospheric pressure in neat water via a Tsuji–Wacker type oxidation. Conventionally, the Tsuji–Wacker oxidation promotes the Markovnikov oxidation of terminal alkenes to their respective ketones in the presence of dioxygen. Water-soluble Pd nanoparticles, however, catalyze the anti-Markovnikov oxidation of allyl benzene to 3-phenylpropanal in up to 83% yields. Catalytic results of other aromatic alkenes suggest that the presence of benzylic hydrogen is a key to the formation of a p-allyl Pd intermediate and the anti-Markovnikov addition of H2O. The subsequent b-H elimination and tautomerization contribute to the formation of aldehyde products. Water-soluble Pd nanoparticles are characterized using nuclear magnetic resonance (NMR), UV–vis spectroscopy, thermogravimetric analysis (TGA), and transmission electron microscopy (TEM). Catalysis results are examined using 1H NMR and/or GC-MS analyses of isolated reaction mixtures. 

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3. Efforts Towards Control of Regioselectivity in the Gold(I) Catalyzed Hydration of Internal Alkynes. Effects of Solvent, Temperature and Substrate on Regioselectivity

   https://doi.org/10.1002/adsc.202200812  

   Singh, Saibal ; Dobereiner, Graham E. ( September 2022 , Advanced Synthesis & Catalysis)

   Internal alkyne hydration using gold(I) catalysts often shows <5:1 regioselectivity. To explore factors that control selectivity, [(IPr)Au]⁺paired with the weakly coordinating anion [IMP‐H] was employed in additive free hydration reactions. Solvent influences the anti‐Markovnikov selectivity of alkylarylacetylene hydration. Although temperature does not impact selectivity, [(IPr)Au(NCMe)][IMP‐H] (C1) is an effective precatalyst for alkyl/alkyl and alkyl/aryl acetylenes at ambient temperature. Overall kinetic behavior ofC1resembles that of other Au hydrofunctionalization reactions of [(IPr)Au]⁺, where nucleophilic attack and/or proton transfer are turnover limiting. Prospects for improving regioselectivity are discussed.

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4. Oxidative Alkenylation of Arenes Using Supported Rh Materials: Evidence that Active Catalysts are Formed by Rh Leaching

   https://doi.org/10.1002/cctc.202001526  

   Luo, Zhongwen ; Whitcomb, Colby A. ; Kaylor, Nicholas ; Zhang, Yulu ; Zhang, Sen ; Davis, Robert J. ; Gunnoe, T. Brent ( November 2020 , ChemCatChem)

   This work focuses on the synthesis of supported Rh materials and study of their efficacy as pre‐catalysts for the oxidative alkenylation of arenes. Rhodium particles supported on silica (Rh/SiO₂; ∼3.6 wt% Rh) and on nitrogen‐doped carbon (Rh/NC; ∼1.0 wt% Rh) are synthesized and tested. Heating mixtures of Rh/SiO₂or Rh/NC with benzene and ethylene or α‐olefins and CuX₂{X=OPiv (trimethylacetate) or OHex (2‐ethyl hexanoate)} to 150 °C results in the production of alkenyl arenes. When using Rh/SiO₂or Rh/NC as catalyst precursor, the conversion of benzene and propylene or toluene and 1‐pentene yields a ratio of anti‐Markovnikov to Markovnikov products that is nearly identical to the same ratios as the molecular catalyst precursor [Rh(μ‐OAc)(η²‐C₂H₄)₂]₂. These results and other observations are consistent with the formation of active catalysts by leaching of soluble Rh from the supported Rh materials.

    

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5. Ligand and Linkage Isomers of Bis(ethylthiocarbamato) Copper Complexes with Cyclic C 6 H 8 Backbone Substituents: Synthesis, Characterization, and Antiproliferation Activity

   https://doi.org/10.1002/ejic.202300447  

   Bajaj, Kritika ; Andres, Sarah A. ; Hofsommer, Dillon T. ; Chekwube Michael, Okolocha ; Mashuta, Mark S. ; Bates, Paula J. ; Buchanan, Robert M. ; Grapperhaus, Craig A. ( September 2023 , European Journal of Inorganic Chemistry)

   A series of isomeric bis(alkylthiocarbamate) copper complexes have been synthesized, characterized, and evaluated for antiproliferation activity. The complexes were derived from ligand isomers with 3‐methylpentyl (H₂L²) and cyclohexyl (H₂L³) backbone substituents, which each yield a pair of linkage isomers. The thermodynamic products CuL^2a/3ahave two imino N and two S donors resulting in three five‐member chelate rings (555 isomers). The kinetic isomers CuL^2b/3bhave one imino and one hydrazino N donor and two S donors resulting in four‐, six‐, and five‐member rings (465 isomers). The 555 isomers have more accessible Cu^II/Ipotentials (E_1/2=−811/−768 mV vs. ferrocenium/ferrocene) and lower energy charge transfer bands than their 465 counterparts (E_1/2=−923/‐854 mV). Antiproliferation activities were evaluated against the lung adenocarcinoma cell line (A549) and nonmalignant lung fibroblast cell line (IMR‐90) using the MTT assay. CuL^2awas potent (^A549EC₅₀=0.080 μM) and selective (^IMR‐90EC₅₀/^A549EC₅₀=25) for A549. Its linkage isomer CuL^2bhad equivalent A549 activity, but lower selectivity (^IMR‐90EC₅₀/^A549EC₅₀=12.5). The isomers CuL^3aand CuL^3bwere less potent with^A549EC₅₀ values of 1.9 and 0.19 M and less selective with^IMR‐90EC₅₀/^A549EC₅₀ratios of 2.3 and 2.65, respectively. There was no correlation between reduction potential and A549 antiproliferation activity/selectivity.

    

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