THE 3 rd INTERNATIONAL SCIENTIFIC CONFERENCES OF STUDENTS AND YOUNG RESEARCHERS dedicated to the 99
th
anniversary of the National Leader of Azerbaijan Heydar Aliyev
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The structures of the obtained new Schiff bases were confirmed by
1
H,
13
C NMR and mass spectroscopy methods, as well as elemental analysis.
The next step was the modification of obtained Schiff bases with silver
nanoparticles. For this purpose, first of all, was done the synthesis of silver
nanoparticles by the green method. The morphology and particle size of
nanoparticles was studied by SEM and XRD methods. Further, Schiff bases
were modified with silver nanoparticles with the formation of new ensembles,
which structures were studied by FTIR method.
References [1] [Burton D. E., Clarke K., and Gray G. W. (1964b), The mechanism of the antibacterial
action of phenols and salicylaldehydes. Part III. Substituted benzaldehydes.]
[2] [Clarke K., Cowen R. A., Gray G. W., and Osborne E. H. (1963), The mechanism of the
antibacterial action of phenols and salicylaldehydes. Part I. J. Chem. Soc., 168Ð173.]
[3] [Dhar DN, Taploo CL. Schiff bases and their applications. J Sci Ind Res 1982;41(8):501–6.]
[4] [Sulekh Chandra and Avdhesh Kumar (Jan. 2011). Green approach for the synthesis of
Ag-nanoparticles and their catalytic properties in the presence of [K.sub.2]C[O.sub.3].
International Journal of Applied Chemistry(Vol.7,Issue 1)]
[5] [Swati Bhargava & Vedula Uma (2018): Rapid extraction of Cu(II) heavy metal from
industrial waste water by using silver nanoparticles anchored with novel Schiff base,
Separation Science and Technology, DOI: 10.1080/01496395.2018.1527853]
BİTSİKLO[2.2.1]-HEPT-5-EN-2-KARBON TURŞUSU VƏ TRİETİLENTETRAAMİN ƏSASLI AMİDİN HEKSİLBROMİD KOMPLEKSİNİN SİNTEZİ VƏ SƏTHİ AKTİVLİYİNİN TƏDQİQİ
