Browsing by Author "Hans, Andreas C."

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    Cooperative Lewis acid‐1,2,3‐triazolium‐aryloxide catalysis : pyrazolone addition to nitroolefins as entry to diaminoamides
    (2023) Wanner, Daniel M.; Becker, Patrick M.; Suhr, Simon; Wannenmacher, Nick; Ziegler, Slava; Herrmann, Justin; Willig, Felix; Gabler, Julia; Jangid, Khushbu; Schmid, Juliane; Hans, Andreas C.; Frey, Wolfgang; Sarkar, Biprajit; Kästner, Johannes; Peters, René
    Pyrazolones represent an important structural motif in active pharmaceutical ingredients. Their asymmetric synthesis is thus widely studied. Still, a generally highly enantio- and diastereoselective 1,4-addition to nitroolefins providing products with adjacent stereocenters is elusive. In this article, a new polyfunctional CuII-1,2,3-triazolium-aryloxide catalyst is presented which enables this reaction type with high stereocontrol. DFT studies revealed that the triazolium stabilizes the transition state by hydrogen bonding between C(5)-H and the nitroolefin and verify a cooperative mode of activation. Moreover, they show that the catalyst adopts a rigid chiral cage/pore structure by intramolecular hydrogen bonding, by which stereocontrol is achieved. Control catalyst systems confirm the crucial role of the triazolium, aryloxide and CuII, requiring a sophisticated structural orchestration for high efficiency. The addition products were used to form pyrazolidinones by chemoselective C=N reduction. These heterocycles are shown to be valuable precursors toward β,γ’-diaminoamides by chemoselective nitro and N-N bond reductions. Morphological profiling using the Cell painting assay identified biological activities for the pyrazolidinones and suggest modulation of DNA synthesis as a potential mode of action. One product showed biological similarity to Camptothecin, a lead structure for cancer therapy.
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    A practical and robust zwitterionic cooperative Lewis acid/acetate/benzimidazolium catalyst for direct 1,4‐additions
    (2023) Hans, Andreas C.; Becker, Patrick M.; Haußmann, Johanna; Suhr, Simon; Wanner, Daniel M.; Lederer, Vera; Willig, Felix; Frey, Wolfgang; Sarkar, Biprajit; Kästner, Johannes; Peters, René
    A catalyst type is disclosed allowing for exceptional efficiency in direct 1,4‐additions. The catalyst is a zwitterionic entity, in which acetate binds to CuII, which is formally negatively charged and serving as counterion for benzimidazolium. All 3 functionalities are involved in the catalytic activation. For maleimides productivity was increased by a factor >300 compared to literature (TONs up to 6700). High stereoselectivity and productivity was attained for a broad range of other Michael acceptors as well. The polyfunctional catalyst is accessible in only 4 steps from N‐Ph‐benzimidazole with an overall yield of 96 % and robust during catalysis. This allowed to reuse the same catalyst multiple times with nearly constant efficiency. Mechanistic studies, in particular by DFT, give a detailed picture how the catalyst operates. The benzimidazolium unit stabilizes the coordinated enolate nucleophile and prevents that acetate/acetic acid dissociate from the catalyst.