Zeki Büyükmumcu

Vibrational and theoretical analysis of pentyl-4-benzoyl-1-[2,4-dinitrophenyl]-5-phenyl-1H-pyrazole-3-carboxylate.

Infrared spectrum of the compound, pentyl-4-benzoyl-1-[2,4-dinitrophenyl]-5-phenyl-1H-pyrazole-3-carboxylate (PBDPPC) has been measured. Conformational search through relaxed scan has been carried out to find the most stable conformational isomer. After the full geometry optimization for the most stable conformer using B3LYP and BLYP hybrid functionals of Density Functional Theory (DFT), vibrational normal modes have been calculated at the same theoretical levels. Potential Energy Distribution (PED) of each normal mode has been calculated by means of VEDA4 to obtain contributions of internal coordinates to the normal modes. Natural Bond Orbital (NBO) analysis has been performed to get insights into the possible hydrogen bonding sites for all the conformational isomers.

Theoretical analysis of TcO3(OH), TcS3(OH) and TcSe3(OH)

TcO3+ and TcO3(OH) along with their S and Se analogs, TcS3+, TcSe3+,TcS3(OH) and TcSe3(OH), have been analyzed employing the hybrid meta-GGA functional TPSS. Charge, geometry, frontier orbital analysis based on the optimized structure have been done as a function of type of an atom bonded to Tc. The effect of addition of OH− group to TcS3+, TcSe3+ and TcO3+ on geometrical and electronic properties is discussed. Rotational barrier of the O–H bond for title molecules are calculated and discussed.

Experimental and molecular modeling investigation of isopropyl 4-(biphenyl-4-Yl)-2,6,6-trimethyl-5-oxo-1,4,5,6,7,8-hexahydroquinoline-3-carboxylate

The most important effect of 1,4-dihydropyridine (1,4-DHP) derivatives with various biological activities is to reduce the influx of extracellular Ca2+ ions. Because of this feature, many 1,4-DHP derivatives have been identified as potent calcium channel blockers and have been included in the treatment as antihypertensive agents. On the other hand, the biphenyl group is an important group in the molecule of biologically active compounds. The active compounds are obtained by introducing the biphenyl group into the structure of various compounds. In this study, the biphenyl group was introduced into the 1,4-DHP ring to reach to hexahydroquinoline (HHQ) derivative as an active calcium channel blocker compound. The structure of the compound was proved by IR, 1H-NMR, Mass spectroscopy, X-ray crystallography and elemental analysis. The cytotoxic properties of the compound has been determined, and biological activity assays continue. The crystal structure of C28H31NO3 was determined by single crystal X-ray diffraction: monoclinic, space group C c, a = 11.9713(3) A, b = 18.7893(5) A, c = 10.7358(3) A, β = 102.411(4)°, Z = 4. The title molecule is twisted with the dihedral angle between two phenyl rings being 50.86(10)°. The optimized geometries of the title compound have been obtained employing DFT method. The calculated geometrical parameters were found to be in agreement with the experimental data.The most important effect of 1,4-dihydropyridine (1,4-DHP) derivatives with various biological activities is to reduce the influx of extracellular Ca2+ ions. Because of this feature, many 1,4-DHP derivatives have been identified as potent calcium channel blockers and have been included in the treatment as antihypertensive agents. On the other hand, the biphenyl group is an important group in the molecule of biologically active compounds. The active compounds are obtained by introducing the biphenyl group into the structure of various compounds. In this study, the biphenyl group was introduced into the 1,4-DHP ring to reach to hexahydroquinoline (HHQ) derivative as an active calcium channel blocker compound. The structure of the compound was proved by IR, 1H-NMR, Mass spectroscopy, X-ray crystallography and elemental analysis. The cytotoxic properties of the compound has been determined, and biological activity assays continue. The crystal structure of C28H31NO3 was determined by single crystal X-ray diffr...

Structural and spectral analyses of N,N’-(2,2’-dithiodi-o-phenylene)bis-(furan-2-carboxamide)

In this study we report structure determination of N,N’-(2,2’-dithiodi-o-phenylene)bis-(furan-2-carboxamide). 2,2’-Dithiobis(benzamide) derivatives have been reported to possess important biological properties such as antibacterial, antifungal activities and inhibition of blood platelet aggregation and redeterrmined at 100(2)K from the data published by Raftery, Lallbeeharry, Bhowon, Laulloo & Joulea [Acta Cryst. 2009, E65, o16]. 2,2’-Dithiobis(N-butyl-benzamide) has been reported to be useful as an antiseptic for cosmetics. The structural properties of the compound have been characterized by using 1H NMR and the structure were determined by single-crystal X-ray diffraction. Molecular structure crystallizes in triclinic form, space group with a = 9.6396(7) A, b = 9.9115(7) A, c = 12.0026(8) A, α = 109.743(6)°, β = 103.653(6)°, γ = 104.633(6)° and V = 977.15(13) A3. In the solid state of the molecular structure N–H…S, N–H…O and C–H…O, type interactions provide for stabilization. The geometries of the title compound have been optimized using density functional theory (DFT) method. The calculated values were found to be in agreement with the experimental data.In this study we report structure determination of N,N’-(2,2’-dithiodi-o-phenylene)bis-(furan-2-carboxamide). 2,2’-Dithiobis(benzamide) derivatives have been reported to possess important biological properties such as antibacterial, antifungal activities and inhibition of blood platelet aggregation and redeterrmined at 100(2)K from the data published by Raftery, Lallbeeharry, Bhowon, Laulloo & Joulea [Acta Cryst. 2009, E65, o16]. 2,2’-Dithiobis(N-butyl-benzamide) has been reported to be useful as an antiseptic for cosmetics. The structural properties of the compound have been characterized by using 1H NMR and the structure were determined by single-crystal X-ray diffraction. Molecular structure crystallizes in triclinic form, space group with a = 9.6396(7) A, b = 9.9115(7) A, c = 12.0026(8) A, α = 109.743(6)°, β = 103.653(6)°, γ = 104.633(6)° and V = 977.15(13) A3. In the solid state of the molecular structure N–H…S, N–H…O and C–H…O, type interactions provide for stabilization. The geometries of the title...