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1. Diastereodivergent synthesis of 4-oxocyclohexanecarbaldehydes by using the modularly designed organocatalysts upon switching on their iminium catalysis

   https://doi.org/10.1039/D1CC01020D  

   Bora, P.; Jakkampudi, S.; Parella, R.; Sakkani, N.; Dai, Q.; Bihani, M.; Arman, H. D.; Zhao, J. C.-G. (January 2021, Chemical communications)

   null (Ed.)

   The cinchona thiourea moiety in the self-assembled modularly designed organocatalysts (MDOs) switches off the iminium catalysis of these catalysts. In this study, it was found that the inhibited iminium catalysis could be switched on by using an appropriate weak acid and that, once the iminium catalysis was switched on, these catalysts could be applied for the highly stereoselective and diastereodivergent synthesis of 4-oxocyclohexanecarbaldehydes via a domino reaction between ketones and α,β-unsaturated aldehydes. 

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2. Stereoselective Radical Acylfluoroalkylation of Bicyclobutanes via N‐Heterocyclic Carbene Catalysis

   https://doi.org/10.1002/anie.202416781  

   Xiao, Chuyu; Shan, Jing‐Ran; Liu, Wen‐Deng; Gao, Xingyuan; Dai, Jingwei; Wang, Zuwei; Wang, Wentao; Houk, K_N; Zhao, Jiannan (November 2024, Angewandte Chemie International Edition)

   Abstract Cyclobutanes are prominent structural components in natural products and drug molecules. With the advent of strain‐release‐driven synthesis, ring‐opening reactions of bicyclo[1.1.0]butanes (BCBs) provide an attractive pathway to construct these three‐dimensional structures. However, the stereoselective difunctionalization of the central C−C σ‐bonds remains challenging. Reported herein is a covalent‐based organocatalytic strategy that exploits radical NHC catalysis to achieve diastereoselective acylfluoroalkylation of BCBs under mild conditions. The Breslow enolate acts as a single electron donor and provides an NHC‐bound ketyl radical with appropriate steric hindrance, which effectively distinguishes between the two faces of transient cyclobutyl radicals. This operationally simple method tolerates various fluoroalkyl reagents and common functional groups, providing a straightforward access to polysubstituted cyclobutanes (75 examples, up to >19 : 1 d.r.). The combined experimental and theoretical investigations of this organocatalytic system confirm the formation of the NHC‐derived radical and provide an understanding of how stereoselective radical‐radical coupling occurs. 

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3. Cyclization Strategies for the Concurrent Installation of Multiple Quaternary Stereogenic Centers

   https://doi.org/10.1002/ijch.202100014  

   Alachouzos, Georgios; Frontier, Alison J. (May 2021, Israel Journal of Chemistry)

   Abstract In this review we highlight the general cyclization strategies currently available to organic chemists for the concurrent and stereoselective installation of multipleQuaternary Stereogenic Centers(QSC) atoms in cyclic or polycyclic architectures. QSCs embedded in rigid cyclic architectures are motifs found in many blockbuster drugs and important bioactive natural product classes, and yet, direct access to these structures stereoselectively from simple precursors remains a significant challenge. Underscoring the difficulty associated with their synthesis, such topologically three‐dimensional molecules are underrepresented in existing small molecule compound libraries, which are instead dominated by linear or flat molecules. This review focuses on methods disclosed in both natural product synthesis and methodology studies since the turn of the 21^stcentury. The cases to be examined successfully achieve these challenging transformations: (1)one‐step assembly of the cyclized architecture; and (2)concurrent stereoselective installation of multiple (≥2) new QSCs. These cyclization strategies, which address the aforementioned fundamental challenges in complex molecule synthesis, have been categorized into five broad groups: i) Biomimetic Polyene Cyclization Cascades; ii) Cyclization Cascades of Prochiral Alkenes; iii) Cycloadditions; iv) Dearomatizations; v) Electrocyclizations. 

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4. Chemoselective Functionalization of Tertiary C−H Bonds of Allylic Ethers: Enantioconvergent Access to sec,tert‐Vicinal Diols

   https://doi.org/10.1002/anie.202501924  

   Chen, Yuqing; Wang, Xin; Shan, Jing‐Ran; Wu, Zhixian; Cao, Renxu; Liu, Yonghong; Jin, Yunhe; Hao, Erjun; Houk, K N; Shi, Lei (April 2025, Angewandte Chemie International Edition)

   Abstract While enantioenriched alcohols are highly significant in medicinal chemistry, total synthesis, and materials science, the stereoselective synthesis of tertiary alcohols with two adjacent stereocenters remains a formidable challenge. In this study, we present a dual catalysis approach utilizing photoredox and nickel catalysts to enable the unprecedented chemoselective functionalization of tertiary allylic C−H bonds in allyl ethers instead of cleaving the C−O bond. The resulting allyl‐Ni intermediates can undergo coupling with various aldehydes, facilitating a novel enantioconvergent approach to access extensively functionalized homoallylicsec,tert‐vicinal diols frameworks. This protocol exhibits nice tolerance towards functional groups, a broad scope of substrates, excellent diastereo‐ and enantioselectivity (up to 20 : 1 dr, 99 %ee). Mechanistic studies suggested that allyl‐Ni^IIacts as the nucleophilic species in the coupling reaction with carbonyls. 

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5. Highly Efficient and Stereoselective Thioallylation of Alkynes: Possible Gold Redox Catalysis with No Need for a Strong Oxidant

   https://doi.org/10.1002/anie.201802540  

   Wang, Jin; Zhang, Shuyao; Xu, Chang; Wojtas, Lukasz; Akhmedov, Novruz G.; Chen, Hao; Shi, Xiaodong (May 2018, Angewandte Chemie International Edition)

   Abstract Stereoselective thioallylation of alkynes under possible gold redox catalysis was accomplished with high efficiency (as low as 0.1 % catalyst loading, up to 99 % yield) and broad substrate scope (various alkynes, inter‐ and intramolecular fashion). The gold(I) catalyst acts as both a π‐acid for alkyne activation and a redox catalyst for Au^I/IIIcoupling, whereas the sulfonium cation generated in situ functions as a mild oxidant. This novel methodology provides an exciting system for gold redox catalysis without the need for a strong oxidant. 

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