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Advanced and Biomedical Applications of Schiff-Base Ligands and Their Metal Complexes: A Review
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Because of their importance in a variety of interdisciplinary study domains, Schiff-base ligands have performed a significant role in the evolution of contemporary coordination chemistry. This almost-comprehensive review covers all the aspects and properties of complexes, starting from the Schiff-base ligands. Our work is centered on the eloquent advances that have been developed since 2015, with special consideration to recent developments. Schiff-base ligands and their complexes are adaptable compounds obtained from the condensation of two compounds: a carbonyl with an amino. The correspondent metal complexes have been shown to have antifungal, antibacterial, antioxidant, antiproliferative, and antiviral properties. This review begins with a short introduction to Schiff-base ligands and their metal complexes. It stands out in the recent advancements in the Schiff-base coordination chemistry domain and its future prospects as a potential bioactive core. Additionally, the review contains knowledge about the antioxidant, redox, and catalytic activities of the Schiff-base complexes, with important future applications in the obtaining of new compounds and materials.
Title: Advanced and Biomedical Applications of Schiff-Base Ligands and Their Metal Complexes: A Review
Description:
Because of their importance in a variety of interdisciplinary study domains, Schiff-base ligands have performed a significant role in the evolution of contemporary coordination chemistry.
This almost-comprehensive review covers all the aspects and properties of complexes, starting from the Schiff-base ligands.
Our work is centered on the eloquent advances that have been developed since 2015, with special consideration to recent developments.
Schiff-base ligands and their complexes are adaptable compounds obtained from the condensation of two compounds: a carbonyl with an amino.
The correspondent metal complexes have been shown to have antifungal, antibacterial, antioxidant, antiproliferative, and antiviral properties.
This review begins with a short introduction to Schiff-base ligands and their metal complexes.
It stands out in the recent advancements in the Schiff-base coordination chemistry domain and its future prospects as a potential bioactive core.
Additionally, the review contains knowledge about the antioxidant, redox, and catalytic activities of the Schiff-base complexes, with important future applications in the obtaining of new compounds and materials.
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Schiff Bases and Their Metal Complexes: Synthesis, Structural Characteristics and Applications
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