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Spectroelectrochemistry of 1,10-phenantrolines Substituted by Pyrrolidine and Phenothiazine Redox-active Units
Sokolová, Romana ; Wantulok, J. ; Fiedler, Jan ; Nycz, J. ; Degano, I.
Compounds based on 1,10-phenanthroline (Phen) and their complexes are used in many fields, such as a stabilizing agent in the synthesis of nanoparticles, catalysts in homogeneous catalysis and as a semiconductor in organic light-emitting diodes (OLED) due to their coordination abilities. In this work, 1,10-phenanthrolines functionalized by pyrrolidine and phenothiazine units were studied by electrochemical methods. Cyclic voltammetry resulted in several oxidation and reduction voltammetric peaks. Structure-activity relationship was investigated using in situ spectroeletrochemistry, spectrophotometry, infrared spectroscopy and chromatography.
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Oxidation and Reduction of Selected 1,10-Phenantrolines
Wantulok, J. ; Sokolová, Romana ; Nycz, J. E. ; Degano, I.
Derivatives of 1,10-phenanthroline (Phen) are well-known bident ligands which had a lot of interesting applications thanks to their coordination abilities. Selected 1,10-phenanthroline compounds were studied by electrochemical methods. Depending on their different substituents were observed several oxidation and reduction voltammetric peaks. The study involves also in situ spectroeletrochemistry, infrared spectroscopy and identification of products by HPLC-DAD and HPLC-ESI MS/MS.
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Quantum chemical study of the electron properties of various platinum(IV) complexes and their reaction mechanisms
Šebesta, Filip ; Burda, Jaroslav (advisor) ; Straka, Michal (referee)
It has been proven that platinum complexes are active in anticancer treatment as well as several other transition metals complexes. There is an effort in recent medicine to replace cisplatin complexes by drugs with smaller side effects. This work focuses on the reaction of 5'-dGMP (2'-deoxyguanosine-5'˗monophosphate) and cGMP (cyclic 2'-deoxyguanosine- monophosphate) with a platinum complex PtIV (dach)Cl4 (dach=diaminocyclohexane). In these two cases the Pt(IV) complex is only reduced in the presence of 5'-dGMP. The first part of the explored mechanism is the substitution reaction where a coordinate-covalent bond between platinum and nitrogen N7 of guanine is formed. In the next step oxygen of phosphate group is transferred to the C8 site. Subsequently the Pt(IV) complex is reduced. The final products represent 8˗oxo˗GMP and PtII (dach)Cl2, which are active in anticancer treatment in comparison with the kineticly inert reactant. The substitution of a chloride anion ends the reaction path for cGMP forming PtIV (dach)Cl3(N7-cGMP) complex. The structures were optimized at the DFT level with B3LYP functional in the basis set 6-31G(d) and PCM/UA0 solvation model. The energy parameters were computed at the B3LYP/6˗311++G(2df,2pd) level in the IEFPCM/sUAKS solvation model. Finally, the rate constants were...
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Searching for Electrochemical Reduction Mechanism of Azidophenyl DNA Labels
Daňhel, Aleš ; Trošanová, Zuzana ; Balintová, Jana ; Hocek, Michal ; Fojta, Miroslav
This contribution brings new information to sporadic scientific results concerned to electrochemical reduction of aromatic azides. Selected compounds used as perspective DNA labels or their structural constituents such as, 4-azidophenyltrifluoroboronic acid, 4-azidophenyl modified deoxycytidine and next probable analogous compounds and/or products of their reduction, were voltammetrically studied and compared to each other in order to reveal a mechanism of their electrochemical reduction at mercury electrodes in aqueous media. Preliminary results obtained by cyclic voltammetry at mercury and carbon based electrodes and by mass spectrometry of the products isolated from batch electrolysis on mercury pool by preparative chromatography are discussed.
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