Authors :
M. Muthu Selvi; M.R. Bhamuni; P. Sivadharani; S.R. Jayapradha
Volume/Issue :
Volume 8 - 2023, Issue 10 - October
Google Scholar :
https://tinyurl.com/wmue2dcj
Scribd :
https://tinyurl.com/52uwmch3
DOI :
https://doi.org/10.5281/zenodo.10002695
Abstract :
Phenyl hydroxyl amine & glutaraldehyde are
synthesizing and it has been yielded simple stable form
of nitrone. It has been playing an essential part to
synthesis the heterocyclic compounds that undergoes the
elegant characteristic transformation. Nitrones can be
used as probable oxidizing reagents through the
renovation of several alkyl halides to ketones and
aldehydes with high crop. The novel nitrone is 1,3-Dipole
and its used in 1,3-dipolar cycloaddition. The 1,3-
dipolar cycloaddition of nitrones with numerous
dipolarophiles creates some heterocyclic rings having
different sizes and incalculable N-heterocyclic motifs.
That has been contains the extensively existed molecules
in the biological or pharmaceutical interest. In the
present research it has been evaluate a competent
method for synthesis of α-Glutaryl-N-aryl nitrone and its
employed for their antimicrobial activities and it is
confirmed in 13C and 1H NMR techniques.
Keywords :
α-Glutaryl-N-Aryl Nitrone; Glutaraldehyde; Phenyl Hydroxyl Amine; 1,3 Cycloadditions; Anti-Microbial Activities
Phenyl hydroxyl amine & glutaraldehyde are
synthesizing and it has been yielded simple stable form
of nitrone. It has been playing an essential part to
synthesis the heterocyclic compounds that undergoes the
elegant characteristic transformation. Nitrones can be
used as probable oxidizing reagents through the
renovation of several alkyl halides to ketones and
aldehydes with high crop. The novel nitrone is 1,3-Dipole
and its used in 1,3-dipolar cycloaddition. The 1,3-
dipolar cycloaddition of nitrones with numerous
dipolarophiles creates some heterocyclic rings having
different sizes and incalculable N-heterocyclic motifs.
That has been contains the extensively existed molecules
in the biological or pharmaceutical interest. In the
present research it has been evaluate a competent
method for synthesis of α-Glutaryl-N-aryl nitrone and its
employed for their antimicrobial activities and it is
confirmed in 13C and 1H NMR techniques.
Keywords :
α-Glutaryl-N-Aryl Nitrone; Glutaraldehyde; Phenyl Hydroxyl Amine; 1,3 Cycloadditions; Anti-Microbial Activities