3522-07-4Relevant articles and documents
A novel copper-catalyzed, hydrazine-free synthesis of N-1 unsubstituted 1H-indazoles using stable guanylhydrazone salts as substrates
Rekowski, Szymon P.,Kroener, Bettina K.,Kathuria, Deepika,Wani, Aabid A.,Chourasiya, Sumit S.,Conrad, Jürgen,Bharatam, Prasad V.,Frey, Wolfgang,Beifuss, Uwe
, (2021/06/12)
A CuI-catalyzed, hydrazine-free transformation of 2-(2-bromoarylidene)guanylhydrazone hydrochlorides using Cs2CO3 as a base and DMEDA as a ligand at 120 °C for 5 h delivers substituted 1H-indazoles with yields up to 75%. The C,N double bond configuration of the substrates was determined by NMR experiments and quantum chemical calculations. The reaction mechanism was studied using quantum chemical calculations.
Palladium catalyzed hydrodefluorination of fluoro-(hetero)arenes
Gair, Joseph J.,Grey, Ronald L.,Giroux, Simon,Brodney, Michael A.
supporting information, p. 2482 - 2487 (2019/04/10)
Palladium catalyzed hydrodefluorination was developed for fine-tuning the properties of fluoro-(hetero)aromatic compounds. The robust reaction can be set up in air, requires only commercially available components, and tolerates a variety of heterocycles and functionalities relevant to drug discovery. Given the prevalence of fluorine incorporation around metabolic hotspots, the corresponding deuterodefluorination reaction may prove useful for converting fluorinated libraries to deuterated analogues to suppress the oxidative metabolism by kinetic isotope effects.
MUSCARINIC AGONISTS
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Paragraph 0223, (2014/10/04)
Compounds of formula (I) and methods are provided for the treatment of disease or conditions in which modification of cholinergic, especially muscarinic receptor activity, has a beneficial effect.