Green chemistry Green synthesis and physicochemical characterization of Cu(II) and Ni(II) Schiff base complexes derived from 2,3-dihydroxybenzaldehyde

Faiza Faraj Iswisi; Hana Bashir Shawish

المؤلفون

Faiza Faraj Iswisi الفلوس
Hana Bashir Shawish Department of Chemistry Faculty of Science Misrata University

الكلمات المفتاحية:

Green chemistry، Schiff base complexes، Copper(II)، Nickel(II)، Mechanochemical

الملخص

Green chemistry, which focuses on the creation of ecologically friendly synthetic techniques, has emerged as a crucial strategy in contemporary coordination chemistry. This study used sustainable methods to manufacture Schiff base ligands from aminopyridine derivatives and 2,3-dihydroxybenzaldehyde. Their copper(II) and nickel(II) complexes were then made using green synthetic methods that minimized the use of solvents and energy, such as mechanochemical grinding and microwave-assisted synthesis.Using a variety of physicochemical and spectroscopic methods, including elemental analysis, Fourier-transform infrared spectroscopy (FT-IR), Mass spectrum, magnetic susceptibility measurements, molar conductivity, and thermal analysis, the synthesized metal complexes were isolated in high yields. Spectral measurements demonstrated chelation behavior by confirming the interaction of the Schiff base ligands to the metal centers via the azomethine nitrogen and phenolic oxygen atoms.

السيرة الشخصية للمؤلف

Faiza Faraj Iswisi، الفلوس

المراجع

Anastas, P. T., & Warner, J. C. (2000). Green chemistry: theory and practice: Oxford university press.

İnci, D., Aydın, R., & Zorlu, Y. (2021). NOO-type tridentate Schiff base ligand and its one-dimensional Cu (II) coordination polymer: Synthesis, crystal structure, biomacromolecular interactions and radical scavenging activities. Inorganica Chimica Acta, 514, 119994.

James, S. L., Adams, C. J., Bolm, C., Braga, D., Collier, P., Friščić, T., . . . Jones, W. (2012). Mechanochemistry: opportunities for new and cleaner synthesis. Chemical Society Reviews, 41(1), 413-447.

Kaupp, G. (2009). Mechanochemistry: the varied applications of mechanical bond-breaking. CrystEngComm, 11(3), 388-403.

Lever, A. B. P., & Rice, S. A. (1969). Inorganic electronic spectroscopy. In: American Institute of Physics.

Mary, K. L., Geetha, D., & Ramesh, P. (2023). Enriching electrochemical and visible light photodegradation performance of nickel doped indium sulfide nanocrystals via hydrothermal route. Inorganic Chemistry Communications, 156, 111103.

Pradhan, R., Sinha, S. K., Verma, P., Kumar, S., & Sharma, S. (2018). Synthesis and characterization of Schiff base complexes of O-vanillin and anthranilic acid and their biological evaluation. Asian J. Chem, 30(9), 1989-1993.

Servi, S., Genc, M., Gür, S., & Koca, M. (2005). Corrigendum to “The synthesis and antimicrobial activity of some new methyl N-arylthiocarbamates, dimethyl N-aryldithiocarbonimidates and 2-arylamino-2-imidazolines”. European Journal of Medicinal Chemistry, 9(40), 960.

Sheldon, R. A. (2017). The E factor 25 years on: the rise of green chemistry and sustainability. Green Chemistry, 19(1), 18-43.

Varma, R. S. (1999). Solvent-free organic syntheses. using supported reagents and microwave irradiation. Green Chemistry, 1(1), 43-55.