Cross-electrophile coupling (XEC), defined by us as the cross-coupling of two different σ-
electrophiles that is driven by catalyst reduction, has seen rapid progression in recent years …

The electrochemical methods have a huge synthetic potential in both academia and
industry. However, the implementation of electrochemistry for the synthesis of …

Pnictogen bonding (PnB) has gained recognition as an appealing strategy for constructing
novel architectures and unlocking new properties. Within the synthetic community, the …

Organophosphorus compounds hold significant importance in the fields of materials
science, medicinal chemistry, pesticides and organic synthesis. In particular, phosphonate …

Various triarylphosphines have been prepared by coupling diphenylphosphine with aryl
iodides with catalytic amounts of CuI in the presence of either K2CO3 or Cs2CO3, in good …

Organonickel reagents are widely used for the obtaining of the organophosphorus
compounds from different phosphorus sources including elemental white phosphorus …

Organonickel complexes with α-diimine ligands play an important role in electrocatalytic C–
C or C–P cross coupling reactions. The review summarises recent insights into the reaction …

The activation of C–H bond, and its direct one-step functionalization, is one of the key
synthetic methodologies that provides direct access to a variety of practically significant …

Advances in electro-organic synthesis are associated with searching for new innovative
synthetic approaches, especially those to synthesizing and functionalizing complex …

Transition metal‐catalyzed C− H activation has emerged as a powerful tool in organic
synthesis and electrosynthesis as well as in the development of new methodologies for …