7149-18-0Relevant articles and documents
Iridium complex-linked porous organic polymers for recyclable, broad-scope photocatalysis of organic transformations
Xu, Zi-Yue,Luo, Yi,Zhang, Dan-Wei,Wang, Hui,Sun, Xing-Wen,Li, Zhan-Ting
supporting information, p. 136 - 143 (2020/01/21)
Two rigid porous organic polymers (Ir-POP-1 and Ir-POP-2) were prepared from the coupling reactions of tetraphenylmethane tetraborate and two [Ir(ppy)2(dtbbpy)]+-based bitopic linkers and applied as heterogeneous visible-light photocatalysts for organic transformations. Ir-POP-2 was found to exhibit high catalytic activity for a wide range of organic reactions, which include Smiles-Truce rearrangement of alkyliodides, desulfurative conjugate addition to Michael acceptors, and aerobic oxidations of sulfides and arylboronic acids. For all the transformations, Ir-POP-2 could achieve heterogeneous photocatalytic efficiency that rivals that of the homogeneous prototype iridium complexes. This remarkably high photocatalytic performance has been attributed to the large pore size of the conjugated backbone. The new heterogeneous photocatalyst was also highly stable to achieve good recyclability for all the studied reactions and could be reused eight to nineteen times.
Chemoselective intramolecular alkylation of the Blaise reaction intermediates: Tandem one-pot synthesis of exo -cyclic enaminoesters and their applications toward the synthesis of N -heterocyclic compounds
Kim, Ju Hyun,Shin, Hyunik,Lee, Sang-Gi
experimental part, p. 1560 - 1565 (2012/04/04)
The intramolecular alkylative reactivity and N/C selectivity of the various Blaise reaction intermediates, which are formed from the reaction of the Reformatsky reagents with ω-chloroalkyl nitriles, did not reach the synthetic potential as an entry to exo-cyclic enaminoesters. To circumvent this issue, various additives were investigated, among which the addition of NaHMDS dramatically enhanced the reactivity and N/C selectivity. This modification provided a highly efficient route for the synthesis of various N-fused heterocyclic compounds, as it requires only two steps from nitriles.
Development of a suitable process for the preparation of a TNF-α converting enzyme inhibitor, WAY-281418
Wang, Youchu,Papamichelakis, Maria,Chew, Warren,Sellstedt, John,Noureldin, Razzak,Tadayon, Sam,Daigneault, Sylvain,Galante, Rocco J.,Sun, Jerry
, p. 1253 - 1260 (2013/01/03)
A suitable process for the preparation of kilogram quantities of a TNF-α converting enzyme (TACE) inhibitor (WAY-281418) was developed using isatin 13 as starting material and an efficient coupling step for the formation of sulfonamide 8 in a 15% overall yield. Process preparation of (+)-(1S,2R)-2-aminocyclopentane-1-carboxylic acid (7, (+)-cispentacin), a chiral component for WAY-281418, was successfully scaled up via an asymmetric hydroge-nation reaction. Crystallization allowed the isolation of all intermediates and the final product 9.