Dmitrii Yu. Mladentsev scite author profile

An efficient procedure for C–P bond formation via the palladium-catalyzed [Pd(OAc)2/dppf/Cs2CO3] reaction between dichloroheterocycles and secondary phosphine oxides was developed. The steric and electronic properties of substituents were varied to establish the scope and limitations of the method developed. By applying these conditions, a variety of new heterocyclic compounds bearing two tertiary phosphine oxides were successfully synthesized in moderate to excellent yields. After adjustments to the reaction conditions [Pd(OAc)2/dippf/t-BuOK], cross-coupling of secondary phosphine oxides with bulky (secondary or tertiary alkyl) substituents on the phosphorus atom was achieved. Extension of the methodology to monohalohetarenes and monohaloarenes was successfully carried out; once again, the steric and electronic properties of the halides were varied widely. The desired reaction occurred in all cases studied, giving high to excellent yields of product regardless of the nature and positions of substituents.

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Synthesis of chelating tertiary phosphine oxides via palladium-catalysed C–P bond formation

Zakirova

Mladentsev

Borisova

2017

Tetrahedron Letters

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Review on Synthetic Approaches toward Rivaroxaban (Xarelto), an Anticoagulant Drug

Mladentsev

Kuznetsova

Skvortsova

et al. 2022

Org. Process Res. Dev.

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Venous thromboembolism including deep vein thrombosis and pulmonary embolism is an abundant and dangerous disease with significant relapse probability and mortality. In pursuit of an effective treatment, Bayer created Rivaroxaban, nowadays known under the brand name Xarelto, that was approved by the FDA in 2011. By 2022, the number of main indications for the drug has been increased 10-fold as well as the drug's prevalence in the field of thrombosis treatment. It is therefore apparent that with growing prescriptions new synthetic pathways are highly desirable, especially those utilizing inexpensive and safe reagents in environmentally benign protocols. The present work reviews the literature concerning Rivaroxaban preparation with an emphasis on the applicability of synthetic pathways on a large scale. Within the synthetic sequences, common intermediates are discussed in detail and relevant comparisons are made. Our main purpose is to provide an overview of the subject in its current state, paying attention to advances made and suggesting possible directions for further development.

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