7533-40-6Relevant articles and documents
Palladium(0)-Catalyzed Enantioselective Intramolecular Arylation of Enantiotopic Secondary C?H Bonds
Melot, Romain,Zuccarello, Marco,Cavalli, Diana,Niggli, Nadja,Devereux, Michael,Bürgi, Thomas,Baudoin, Olivier
supporting information, p. 7245 - 7250 (2021/02/12)
The enantioselective functionalization of nonactivated enantiotopic secondary C?H bonds is one of the greatest challenges in transition-metal-catalyzed C?H activation proceeding by an inner-sphere mechanism. Such reactions have remained elusive within the realm of Pd0 catalysis. Reported here is the unique reactivity profile of the IBiox ligand family in the Pd0-catalyzed intramolecular arylation of such nonactivated secondary C?H bonds. Chiral C2-symmetric IBiox ligands led to high enantioselectivities for a broad range of valuable indane products containing a tertiary stereocenter, as well as the arylation of secondary C?H bonds adjacent to amides. Depending on the amide substituents and upon control of reaction time, indanes containing labile tertiary stereocenters were also obtained with high enantioselectivities. Analysis of the steric maps of the IBiox ligands indicated that the level of enantioselectivity correlates with the difference between the two most occupied and the two less occupied space quadrants, and provided a blueprint for the design of even more efficient ligands.
Application of proteasome inhibitor in inhibition of novel coronavirus
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Paragraph 0130; 0140-0142; 0162; 0172-0174, (2021/06/22)
The invention provides application of a proteasome inhibitor in inhibition of a novel coronavirus or preparation of novel coronavirus inhibitors. The proteasome inhibitor has a structure represented by a formula (I) or isomers, pharmaceutically acceptable salts thereof and prodrugs thereof. According to the application, by applying the proteasome inhibitor to inhibition of the novel coronavirus, good inhibiting activity is obtained, and a novel treatment way of think is provided for diseases such as pneumonia caused by the novel coronavirus.
Copper(I) Phosphinooxazoline Complexes: Impact of the Ligand Substitution and Steric Demand on the Electrochemical and Photophysical Properties
Frey, Wolfgang,Giereth, Robin,Karnahl, Michael,Klo?, Marvin,Mengele, Alexander K.,Steffen, Andreas,Tschierlei, Stefanie
, p. 2675 - 2684 (2020/03/04)
A series of seven homoleptic CuI complexes based on hetero-bidentate P^N ligands was synthesized and comprehensively characterized. In order to study structure–property relationships, the type, size, number and configuration of substituents at the phosphinooxazoline (phox) ligands were systematically varied. To this end, a combination of X-ray diffraction, NMR spectroscopy, steady-state absorption and emission spectroscopy, time-resolved emission spectroscopy, quenching experiments and cyclic voltammetry was used to assess the photophysical and electrochemical properties. Furthermore, time-dependent density functional theory calculations were applied to also analyze the excited state structures and characteristics. Surprisingly, a strong dependency on the chirality of the respective P^N ligand was found, whereas the specific kind and size of the different substituents has only a minor impact on the properties in solution. Most importantly, all complexes except C3 are photostable in solution and show fully reversible redox processes. Sacrificial reductants were applied to demonstrate a successful electron transfer upon light irradiation. These properties render this class of photosensitizers as potential candidates for solar energy conversion issues.