dc.contributor.advisor |
Doç. Dr. Bağdatlı, Emine |
|
dc.contributor.author |
Özcan, Eylem |
|
dc.date.accessioned |
2022-08-10T13:22:07Z |
|
dc.date.available |
2022-08-10T13:22:07Z |
|
dc.date.issued |
2019 |
|
dc.date.submitted |
2019 |
|
dc.identifier.uri |
http://earsiv.odu.edu.tr:8080/xmlui/handle/11489/368 |
|
dc.description.abstract |
Bu çalışmada, azo-5-pirazolon koordine yeni oksovanadyum(IV) bileşiklerinin sentezi
ve karakterizasyonu gerçekleştirilmiştir.
İlk aşamada ligand olarak kullanmak üzere 4 farklı o-hidroksiaril- substitue (m- H-,
Cl-, Br-, CH3-) azo-5-pirazolon bileşiği sentezlenmiştir (2a-d). İkinci aşamada
saflaştırılarak yapıları karakterize edilen ligand yapıların, vanadil sülfat pentahidrat
bileşiğiyle reaksiyonu sonucu yeni azo-5-pirazolon temelli oksovanadyum(IV)
komplekslerinin ilk sentezi gerçekleştrilmiştir. Tüm ligand yapılar ve komplekslerin
karakterizasyonunda FTIR, UV-Vis., GC-MS ya da LCMS-ESI, sadece ligandlar için
1H NMR, 13C NMR, 13C NMR-APT ve sadece paramanyetik vanadyum kompleksleri
için ESR ve TG/DTG yöntemleri kullanılmıştır. Spektroskopik ve termal çalışmalar
ışığında sentezlenen komplekslerin yapıları L: Ligand olmak üzere [VO(L)2].H2O:
(3a-c) ve [VO(L)2].CH3OH: (3d) olarak önerilmiştir. Spektroskopik çalışmalar azo-5-
pirazolon yapısının iki dişli davrandığını ve metalle koordinasyonu sırasında azo-fenil
aromatik halkasındaki -OH ve pirazolon -C=O gruplarıyla etkileştiğini ortaya
koymuştur. Komplekslerin elektronik spektrumları, tipik oksovanadyum(IV)
kompleksleri gibi yaklaşık 500 nm civarında düşük absorbanslı bir band vermektedir.
Termogravimetrik çalışmalar komplekslerin su (3a-c) ve metanol (3d) moleküllerini
koordinasyon küresinin dışında bulundurduğunu göstermektedir. Termal çalışmalarda
elde edilen kütle kayıpları önerilen kompleks yapılarla uyumlu olup, kompleksler
birbirleriyle benzer parçalanmaları göstermektedir. Yeni oksovanadyum(IV)
komplekslerinin ESR çalışmaları bozulmuş oktahedral geometrik yapıyı
önermektedir.,In this study, synthesis and characterization of azo-5-pyrazolone coordinated new
oxovanadium(IV) compounds were performed.
Four different o-hydroxyaryl substituted (m- H-, Cl-, Br-, CH3-) azo-5-pyrazolone
compounds were synthesized (2a-d) to be used as ligands in the first stage. In the
second step, the first synthesis of the new azo-5-pyrazolone based oxovanadium(IV)
complexes was carried out by the reaction of structurally characterized ligands with
the vanadyl sulfate pentahydrate compound. For the characterization of all ligands and
complexes, FTIR, UV-Vis., GC-MS or LCMS-ESI, only for the ligands:1H NMR, 13C
NMR, 13C NMR-APT, and only for paramagnetic vanadium complexes: ESR and TG
/ DTG methods were used. In the light of spectroscopic and thermal studies, the
structures of the complexes have been proposed as [VO(L)2].H2O: (3a-c) and
[VO(L)2].CH3OH: (3d) and L: Ligand. Spectroscopic studies have shown that azo-5-
pyrazolone acted as bidendate and used OH- and pyrazolone -C=O groups in the azophenyl
aromatic ring during its coordination with the metal. The electronic spectra of
the complexes gave a low intensity band of about 500 nm, such as typical
oxovanadium (IV) complexes. Thermogravimetric studies show that the complexes
contain water (3a-c) and methanol (3d) molecules outside the coordination sphere. The
mass losses obtained in the thermal studies are in accordance with the proposed
complex structures and the complexes show similar fragmentations. ESR studies of
new oxovanadium(IV) complexes suggest distorted octahedral geometric structure. |
en_US |
dc.description.abstract |
In this study, synthesis and characterization of azo-5-pyrazolone coordinated new
oxovanadium(IV) compounds were performed.
Four different o-hydroxyaryl substituted (m- H-, Cl-, Br-, CH3-) azo-5-pyrazolone
compounds were synthesized (2a-d) to be used as ligands in the first stage. In the
second step, the first synthesis of the new azo-5-pyrazolone based oxovanadium(IV)
complexes was carried out by the reaction of structurally characterized ligands with
the vanadyl sulfate pentahydrate compound. For the characterization of all ligands and
complexes, FTIR, UV-Vis., GC-MS or LCMS-ESI, only for the ligands:1H NMR, 13C
NMR, 13C NMR-APT, and only for paramagnetic vanadium complexes: ESR and TG
/ DTG methods were used. In the light of spectroscopic and thermal studies, the
structures of the complexes have been proposed as [VO(L)2].H2O: (3a-c) and
[VO(L)2].CH3OH: (3d) and L: Ligand. Spectroscopic studies have shown that azo-5-
pyrazolone acted as bidendate and used OH- and pyrazolone -C=O groups in the azophenyl
aromatic ring during its coordination with the metal. The electronic spectra of
the complexes gave a low intensity band of about 500 nm, such as typical
oxovanadium (IV) complexes. Thermogravimetric studies show that the complexes
contain water (3a-c) and methanol (3d) molecules outside the coordination sphere. The
mass losses obtained in the thermal studies are in accordance with the proposed
complex structures and the complexes show similar fragmentations. ESR studies of
new oxovanadium(IV) complexes suggest distorted octahedral geometric structure. |
en_US |
dc.language.iso |
tur |
en_US |
dc.publisher |
Fen Bilimleri Enstitüsü |
en_US |
dc.rights |
info:eu-repo/semantics/openAccess |
en_US |
dc.subject |
Pirazolon, Azo-5-pirazolon, Oksovanadyum Kompleksleri, Termal Analiz, ESR,Pyrazolone, Azo-5-pyrazolone, Oxovanadium Complexes, Thermal Analysis, ESR |
en_US |
dc.subject |
Pirazolon, Azo-5-pirazolon, Oksovanadyum Kompleksleri, Termal Analiz, ESR,Pyrazolone, Azo-5-pyrazolone, Oxovanadium Complexes, Thermal Analysis, ESR |
en_US |
dc.title |
Potansiyel Biyoetkin Oksovanadyum (IV) Kompleksleri |
en_US |
dc.title.alternative |
POTENTIALLY BIOACTIVE OXOVANADIUM (IV) COMPLEXES |
en_US |
dc.type |
masterThesis |
en_US |
dc.contributor.department |
Ordu Üniversitesi |
en_US |
dc.contributor.department |
Fen Bilimleri Enstitüsü |
en_US |