Title : Synthesis of Schiff’s Bases from 2-Amino-4H-1, 3-Oxazine / Thiazine and Substituted Aldehydes and their Transition Metal Complexes

Vol 4 No 7 (2021): Volume 04 Issue 07 July 2021

Article Date Published : 8 July 2021 | Page No.: 677-683 | Google Scholar | Crossref doi for this article

Abstract :

Objective: Many methods can be found in literature for the synthesis a Oxazines and Thiazines. Few are reported for one-pot multi component cyclo-condensation of an alkayane urea / Thiourea and Aldehyde to 2- amino-4H-1, 3-Oxazines or Thiazines. Different catalysts are reported like Trifluoro-acetic acid, glacial acetic acid under reflux condition Mandal and Co-workers have utilized perchloric acid (HClO4) supported on silica gel as catalyst under solvent free condition ytterbium trifluorate [Yb(OTF)3] plays role of Lewis acid. It is also used in several Diel’s-Alder cyclo-addition reactions.
Inspired these observations, development of simple effective synthetic strategy for the synthesis of 2-amino-4H-1, 3-Oxazium & Thiazines was attempted.
Material and Methods: One pot multi-component synthesis of Schiff’s base as new ligand an their complexes with Ni, Fe, Co and Cu and developed using 2-amino-4H-1,3 Oxazines /Thiazines and substituted Aldehydes, different catalyst are used to synthesize of 2-amino 4H-1,3 Oxazines. Its characterization is confirmed by taking IR, NMR spectra.
The Schiff’s base act as ligand is bidentate, when it is treated to metal complexes in 1:1 ratio (metal: ligand) complexes are formed.
Result: By using the bioactive molecules like 2-amino-4H-1, 3 Oxazine / Thiazines, Schiff’s Bases can be synthesized by using different aldehydes. These Schiff’s Bases has antitumor, antipyretic, anti-inflammatory property. And these Schiff’s bases treated with bioactive metals like Co, Fe, Cu, Zn which enhances their bio-activity.
Conclusion: All these synthesized Schiff’ Bases and their metal complexes having bioactive properties.

Keywords :

2-amine-4H-1, 3., Coordination complexes and Characterization, Oxazines and substituted aldehydes, Synthesis of Schiff’s bases

References :

1. Mathew, B.P. Kumar, A.Sharma, S. Shukla, P.K. Nath, M.Eur, J. Med. Chem. 45, 1502 (2010)
2. Haneisi J. : Okazaki, T. Hata , T, Jamura L, Nom. Arura M.J. Antibiot,24, 797 (1971)
3. Sasaki K. Kusalabe, Y. Esumi, S.J. Aautibiot 25,151(1972)
4. Pictsh M : Custchow M.J. Med. Chem. 48,8270 (2005)
5. Hung S. : Pan Y. : Zhu Y : Wu, A. Org, Lett. 7,3797 (2005)
6. Cecchetti, V : Cruciani, G : Filliponi , E : Fravolini A; Tabarrini O, T.Bioorg. Med.Chem. 5, 1339(1997)
7. Remillard, S. Rebhu, L.I Howie, G.A. Kupchan, S.M .Science 189 ,1002 (1975)
8. Sokolova, A,S ; Rayabokon’, N.A; Erashova, Yu.A; Andreeva, N.A. ; Nemeryuk, M.P; Kermov, A.F. Traven, N.I; Yadrovskaya, V.A; Chernov, V.A ; Safonova, T.S.Pharm. Chem.J 11 (9) ,49 (1977)
9. Pietsch, M, Gutschow M, M.J.Med.Chem, 48,8270 (2005)
10. Diwagh, S.S; Piste, P.B. Int. J. Pharm. Sci, Res. 4,2045 (2013)
11. Mandal, P.K.Misra, A.K. Lett. Org. Chem. 3, 848 (2006)

Author's Affiliation

   D.T. Biradar
Department of Chemistry, Research Centre, Shivaji Mahavidyalaya, Udgir, Dist.Latur

   Dr. M. B. Swami
Dept. of Chemistry, Bahirji Smarak Mahavidyalaya, Basmath, dist. Hingoli-431512[M.S]

Copyrights & License

D.T. Biradar, Dr. M. B. Swami, 2021

This work is licenced under a Creative Commons Attribution 4.0 International License.

Article Details

How to Cite :

Synthesis of Schiff’s Bases from 2-Amino-4H-1, 3-Oxazine / Thiazine and Substituted Aldehydes and their Transition Metal Complexes. D.T. Biradar, Dr. M. B. Swami , 4(7), 677-683. Retrieved from https://ijcsrr.org/single-view/?id=4010&pid=3937

Most read articles by the same author(s)

D.T. Biradar, Dr. M. B. Swami,

View

169

Citation

Downloads

Article Details