Pharmacological Potentials of Schiff Base Metal Complexes: A Survey - Mohapatra, Ranjan Kumar;El-ajaily, Marei Miloud;Das, Pradeep Kumar
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Schiff bases are the most widely used organic compounds. These are generally bi- or tridentate ligands capable of forming very stable complexes with metal ions. In organic synthesis, Schiff base reactions are useful in making carbon-nitrogen bonds. The chemistry of Schiff base metal complexes have been studied extensively over past few decades. The C=N linkage in azomethine derivatives is found to be vital for deciding their biological activities. Several azomethine and their metal complexes have been reported to exhibit a broad range of biological activities, including antifungal,…mehr

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Produktbeschreibung
Schiff bases are the most widely used organic compounds. These are generally bi- or tridentate ligands capable of forming very stable complexes with metal ions. In organic synthesis, Schiff base reactions are useful in making carbon-nitrogen bonds. The chemistry of Schiff base metal complexes have been studied extensively over past few decades. The C=N linkage in azomethine derivatives is found to be vital for deciding their biological activities. Several azomethine and their metal complexes have been reported to exhibit a broad range of biological activities, including antifungal, antibacterial, antiviral, antipyretic and anticancer properties. This review concentrates on the synthesis and pharmacological potentials of some selective Schiff base metal complexes.
Autorenporträt
Dr. Ranjan Kumar Mohapatra, ehemaliger Leiter der Abteilung für Grundlagen- und Geisteswissenschaften am Government College of Engineering in Keonjhar, promovierte in Koordinationschemie an der School of Chemistry der Universität Sambalpur. Er hat 33 Forschungsartikel und 5 Bücher veröffentlicht. Sein Forschungsschwerpunkt ist die Koordinationschemie.