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1. Enantioselective Dearomative Cyclization Enabled by Asymmetric Cooperative Gold Catalysis

   https://doi.org/10.1002/anie.202207518  

   Zhao, Ke; Kohnke, Philip; Yang, Ziguang; Cheng, Xinpeng; You, Shu‐Li; Zhang, Liming (July 2022, Angewandte Chemie International Edition)

   A gold(I)-catalyzed enantioselective dearomatization is achieved via asymmetric ligand-metal cooperation. A new and divergent synthesis of chiral bifunctional binaphthyl-2-ylphosphines is developed to allow rapid access to several ligands, which in turn facilitate the application of this chemistry to a broad substrate scope including 1-naphthols, 2-naphthols, and phenols. Enantiomeric excesses up to 98% are achieved via selective acceleration of one enantiomer formation enabled by hydrogen bonding between substrate and ligand remote basic group. DFT calculations lend support to the cooperative catalysis and substantiate the reaction stereochemical outcomes. 

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2. Catalytic Enantioselective Protonation of Gold Enolates Enabled by Cooperative Gold(I) Catalysis

   https://doi.org/10.1021/jacs.3c11919  

   Gutman, Kaylaa L; Quintanilla, Carlos D; Zhang, Liming (February 2024, Journal of the American Chemical Society)

   Enantioselective protonation is a versatile approach to the construction of tertiary α-stereocenters, which are common structural motifs in various natural products and biologically relevant compounds. Herein we report a mild access to these chiral centers using cooperative gold(I) catalysis. From cyclic ketone enol carbonates, this asymmetric catalysis provides highly enantioselective access to cyclic ketones featuring an α tertiary chiral center, including challenging 2-methylsuberone. In combination with the gold-catalyzed formation of cyclopentadienyl carbonates in a one-pot, two-step process, this chemistry enables expedient access to synthetically versatile α′-chiral cyclopentenones with excellent enantiomeric excesses from easily accessible enynyl carbonate substrates. 

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3. Asymmetric Synthesis of Propargylic and Allenic Silanes, Germanes, and Stannanes

   https://doi.org/10.1002/asia.202500105  

   Chang, Hai; Wang, Ruihan; Wang, Yi‐Ming (May 2025, Chemistry – An Asian Journal)

   Abstract Enantioenriched propargylic and allenic derivatives of silicon, germanium, and tin are versatile building blocks for stereoselective synthesis. Consequently, considerable efforts toward their efficient and selective synthesis have been made, both through classical approaches for chirality transfer and catalytic enantioselective strategies that employ the latest developments in transition metal catalysis, organocatalysis, and photoredox catalysis. In this review, we survey broadly applicable synthetic strategies and discuss the scope and mechanistic details for specific protocols that afford these compounds in a regio‐ and stereoselective manner. 

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4. Optical Relay Sensing of Cryptochiral Alcohols Displaying α‐, β‐, γ‐ and δ‐Stereocenters or Chirality by Virtue of Isotopic Substitution

   https://doi.org/10.1002/anie.202409790  

   Formen, Jeffrey S_S_K; Wolf, Christian (September 2024, Angewandte Chemie International Edition)

   A reaction‐based optical relay sensing strategy that enables accurate determination of the concentration and enantiomeric ratio (er) of challenging chiral alcohols exhibiting stereocenters at the α‐, β‐, γ‐ or even δ‐position or hard‐to‐detect cryptochirality arising from H/D substitution is described. This unmatched application scope is achieved with a conceptually new sensing approach by which the alcohol moiety is replaced with an optimized achiral sulfonamide chromophore to minimize the distance between the covalently attached chiroptical reporter unit and the stereogenic center in the substrate. The result is a remarkably strong, red‐shifted CD induction that increases linearly with the sampleer. The CD sensing part of the tandem assay is seamlessly coupled to a redox reaction with a quinone molecule to generate a characteristic UV response that is independent of the enantiopurity of the alcohol and thus allows determination of the total analyte concentration. The robustness and utility of the CD/UV relay are further verified by chromatography‐free asymmetric reaction analysis with small aliquots of crude product mixtures, paving the way toward high‐throughput chiral compound screening workflows which is a highly sought‐after goal in the pharmaceutical industry. 

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5. Reactions of Unsymmetric Chiral Dialdehydes with Lysine: Regio‐ and Enantioselective Macrocyclization and Fluorescent Sensing

   https://doi.org/10.1002/ejoc.202401250  

   Mao, Yifan; Li, Yichen; Davis, Stephanie; Pu, Lin (February 2025, European Journal of Organic Chemistry)

   Abstract Three BINOL‐based unsymmetric chiral dialdehydes, (S)‐4, (S)‐5, and (S)‐6, each containing a salicylaldehyde moiety and anortho‐,meta‐ orpara‐substituted benzaldehyde unit, are synthesized and used to react with the enantiomers of an unsymmetric chiral diamine, lysine. These reactions represent the first examples of regioselective as well as enantioselective reactions of an unsymmetric chiral dialdehyde with an unsymmetric chiral diamine to generate unsymmetric chiral macrocycles. The addition of Zn²⁺can further enhance the selectivity for the macrocycle formation. Compounds (S)‐4and (S)‐5are found to exhibit chemoselective and enantioselective fluorescent recognition of lysine in the presence of Zn²⁺. 

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