Developing greener synthesis processes is an inescapable necessity to transform the
industrial landscape, mainly in the pharmaceutical sector, into a long-term, sustainable …

In order to identify the chemical constituents of vegetal material it is important that an efficient
extraction procedure is followed which provides both an efficient extraction and also limits …

In the past few years, continuous‐flow reactors with channel dimensions in the micro‐or
millimeter region have found widespread application in organic synthesis. The characteristic …

This critical review examines recent scientific and patent literature in the application of
microwave reactors for catalytic transformation of biomass and biomass-derived molecules …

Since the late 1980s, the scientific community has been attracted to microwave energy as an
alternative method of heating, due to the advantages that this technology offers over …

Colloidal inorganic nanocrystals stand out as an important class of advanced nanomaterials
owing to the flexibility with which their physical–chemical properties can be controlled …

Purification of Laboratory Chemicals: Part Two, Inorganic Chemicals, Catalysts,
Biochemicals, Physiologically Active Chemicals, Nanomaterials, Ninth Edition describes …

Although fire is now rarely used in synthetic chemistry, it was not until Robert Bunsen
invented the burner in 1855 that the energy from this heat source could be applied to a …

Laboratory scaled flow‐through processes have seen an explosive development over the
past decade and have become an enabling technology for improving synthetic efficiency …

Microwave, ultrasound, sunlight and mechanochemical mixing can be used to augment
conventional laboratory techniques. By applying these alternative means of activation, a …