Since the definition of the “12 Principles of Green Chemistry” more than 20 years ago,
chemists have become increasingly mindful of the need to conserve natural resources and …

Dipolar aprotic and ethereal solvents comprise just over 40% of all organic solvents utilized
in synthetic organic, medicinal, and process chemistry. Unfortunately, many of the common …

Cu (I)-catalyzed azide–alkyne cycloaddition (CuAAC) is a modular and bio-orthogonal
approach that is being adopted for the efficient synthesis of organic and bioorganic …

Dipolar aprotic solvents (DMSO, DMF, DMAc, NMP, etc.) have been widely used in organic
synthesis and pharmaceutical research because of their remarkable polarities and …

Direct C–H bond arylation of (hetero) arenes is a very convenient approach for the synthesis
of a wide variety of molecular targets, including compounds of pharmaceutical interest and π …

Transition metal catalyzed C–H activation has surfaced as a powerful tool to improve the
efficacy of molecular synthesis. Last two decades have witnessed a considerable progress …

C–H functionalization technologies have progressed enormously in the last decade as
testified by the great number of publications that have appeared in the literature, which are …

The adoption of flow conditions has been the object of growing attention from both academia
and industry. The shift from batch to continuous-flow technology is very stimulating from a …

In pursuit of sustainable water management, the preparation of adsorbent materials via
waste upcycling for water purification practices plays a decisive role. The sulphonated …

Transition metal-catalyzed C–H activation has emerged as an increasingly powerful strategy
in molecular syntheses and a particularly attractive alternative to classical methods of cross …