Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Schiff Base as Multifaceted Bioactive Core
View through CrossRef
Schiff bases are the condensation products of primary amines and carbonyl compounds, which are becoming more and more significant. Schiff bases are imine or azomethine (–C=N–) functional group containing compounds that are produced through a nucleophile addition process. Excellent chelators called Schiff bases have a place in both qualitative and quantitative analysis of metals in aqueous media. Schiff bases were discovered to be auxiliary scaffolds and adaptable pharmacophore for the creation and production of numerous bioactive leads compounds, and this special quality made them accessible for a wide range of biological applications. Schiff bases exhibit significant biological properties including analgesic, anti-inflammatory, antibacterial, anticonvulsant, anti-tubercular, anticancer, antioxidant, anthelmintic antiglycation, and antidepressant activities. In situ cross-linked hydrogel systems are created using the Schiff bases, which are frequently utilized in coordination, organometallic chemistry, and tissue engineering applications. The role of Schiff bases to the design and creation of new lead with potential biological functions is highlighted in this chapter. Researchers’ interest in obtaining the most conclusive and suggestive information on the numerous Schiff bases that have been important for therapeutic purposes over the last few decades and their use in coordination complexes has been maintained by this bioactive core.
Title: Schiff Base as Multifaceted Bioactive Core
Description:
Schiff bases are the condensation products of primary amines and carbonyl compounds, which are becoming more and more significant.
Schiff bases are imine or azomethine (–C=N–) functional group containing compounds that are produced through a nucleophile addition process.
Excellent chelators called Schiff bases have a place in both qualitative and quantitative analysis of metals in aqueous media.
Schiff bases were discovered to be auxiliary scaffolds and adaptable pharmacophore for the creation and production of numerous bioactive leads compounds, and this special quality made them accessible for a wide range of biological applications.
Schiff bases exhibit significant biological properties including analgesic, anti-inflammatory, antibacterial, anticonvulsant, anti-tubercular, anticancer, antioxidant, anthelmintic antiglycation, and antidepressant activities.
In situ cross-linked hydrogel systems are created using the Schiff bases, which are frequently utilized in coordination, organometallic chemistry, and tissue engineering applications.
The role of Schiff bases to the design and creation of new lead with potential biological functions is highlighted in this chapter.
Researchers’ interest in obtaining the most conclusive and suggestive information on the numerous Schiff bases that have been important for therapeutic purposes over the last few decades and their use in coordination complexes has been maintained by this bioactive core.
Related Results
Overview of Schiff Bases
Overview of Schiff Bases
Schiff bases, which were first obtained by the German chemist H. Schiff in 1864, are used in the paint industry, polymer technology, pharmaceutical industry, medicine, agriculture,...
Schiff Bases and Their Metal Complexes: Synthesis, Structural Characteristics and Applications
Schiff Bases and Their Metal Complexes: Synthesis, Structural Characteristics and Applications
The development of Schiff base was a major step forward in the area of coordination chemistry. Schiff bases, a class of organic compounds, carry the imine or azomethine (>C=N–) ...
Pharmacological Investigations, Synthesis, and Spectral Analyses of Newly Synthesized Potentially Bioactive Ethyl Silicon (IV) Schiff Base Complexes
Pharmacological Investigations, Synthesis, and Spectral Analyses of Newly Synthesized Potentially Bioactive Ethyl Silicon (IV) Schiff Base Complexes
Schiff bases, an active biological moiety, possess diverse pharmacological activities. Here, ethyl silicon (IV) complexes are formed by reacting ethyl silicon alkoxides with Schiff...
Advanced and Biomedical Applications of Schiff-Base Ligands and Their Metal Complexes: A Review
Advanced and Biomedical Applications of Schiff-Base Ligands and Their Metal Complexes: A Review
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 che...
Synthetic approaches of medicinally important Schiff bases: An updated Review
Synthetic approaches of medicinally important Schiff bases: An updated Review
The Schiff base defined by an imine or azomethine (-CH= N-) group, is mostly synthesized by the condensation reaction of carbonyl compounds (Aldehyde or Ketone) with compounds cons...
Synthesis of Schiff Bases by Non-Conventional Methods
Synthesis of Schiff Bases by Non-Conventional Methods
A Schiff base is a compound with the general structure R1R2C=NR’. They can be considered a subclass of imines. The term Schiff base is normally applied when these compounds are use...
Exploration of Schiff Bases: Structures, Syntheses, and Biological Activities
Exploration of Schiff Bases: Structures, Syntheses, and Biological Activities
Abstract:
Schiff bases are organic compounds that were first discovered in 1864 by German chemist
Hugo Schiff. These bases result from a condensation reaction b...
An efficient synthetic route, characterization and antimicrobial evaluation of Co(II), Ni(II), Cu(II) and Zn(II) Schiff base complexes
An efficient synthetic route, characterization and antimicrobial evaluation of Co(II), Ni(II), Cu(II) and Zn(II) Schiff base complexes
ABSTRACT. The synthesis of Schiff base compound derived from 2-hydroxy-3-methoxybenzaldehyde and o-phenylenediamine via solvent-assisted mechanochemical synthesis in the presence o...