Search results for "GIAO NMR Calculations"

showing 3 items of 3 documents

DFT and experimental studies on structure and spectroscopic parameters of 3,6-diiodo-9-ethyl-9H-carbazole

2015

The first report on crystal and molecular structure of 3,6-diiodo-9-ethyl-9H-carbazole is presented. Experimental room-temperature X-ray and 13C chemical shift studies were supported by advanced theoretical calculations using density functional theory (DFT). The 13C nuclear magnetic shieldings were predicted at the non-relativistic and relativistic level of theory using the zeroth-order regular approximation (ZORA). Theoretical relativistic calculations of chemical shifts of carbons C3 and C6, directly bonded to iodine atoms, produced a reasonable agreement with experiment (initial deviation from experiment of 44.3 dropped to 4.25 ppm). The changes in ring aromatic character via simple harm…

Relativistic Effects3Simple harmonic motionDFT calculations010402 general chemistryRing (chemistry)13C NMR spectra01 natural sciencesMolecular physicsChemical shift indexCrystalZORA6-diiodo-9-ethyl-9H-carbazoleComputational chemistrycarbazoleFaculty of ScienceMolecule/dk/atira/pure/core/keywords/TheFacultyOfSciencePhysical and Theoretical Chemistry010405 organic chemistryChemistryChemical shiftAromaticityQuantum ChemistryCondensed Matter Physicscomputational chemistry0104 chemical sciencesZORA GIAO NMR calculationsNMR spectrocopyDensity functional theoryX-ray structureNMR; chemical shiftStructural Chemistry
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Molecular modeling and experimental studies on structure and NMR parameters of 9-benzyl-3,6-diiodo-9H-carbazole

2015

A combined experimental and theoretical study has been performed on 9-benzyl-3,6-diiodo-9H-carbazole. Experimental X-ray (100.0 K) and room-temperature 13C NMR studies were supported by advanced density functional theory (DFT) calculations. The non relativistic structure optimization was performed and the 13C nuclear magnetic shieldings were predicted at the relativistic level of theory using the Zeroth Order Regular Approximation (ZORA). The changes in the benzene and pyrrole rings compared to the unsubstituted carbazole or the parent molecules were discussed in terms of aromaticity changes using the harmonic oscillator model of aromaticity (HOMA) and the nucleus independent chemical shift…

Relativistic EffectsNICSMolecular modelGIAO NMR CalculationsDFT calculationsZORAchemistry.chemical_compoundComputational chemistrycarbazoleFaculty of ScienceHOMAMolecule13 C NMR spectra/dk/atira/pure/core/keywords/TheFacultyOfSciencePhysical and Theoretical ChemistryBenzeneHarmonic oscillator9-Benzyl-3CarbazoleChemical shiftAromaticityQuantum Chemistry6-diiodo-9H-carbazoleCondensed Matter Physicscomputational chemistryNMR spectrocopychemistryPhysical chemistryDensity functional theoryX-ray structureNMR; chemical shiftStructural Chemistry
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Sensitivity of noble gas NMR parameters to the heterocyclic ring proximity. Density functional theory studies of Ne–furan and Ar–furan complexes

2014

Theoretical modeling of noble gas interaction with furan as a simple heterocyclic ring was performed. The structures of neon–furan and argon–furan complexes were calculated at the MP2, M06-2X, CAM-B3LYP, APFD, and VSXC levels of theory using 6-311++G** basis set. The predicted 21Ne and 39Ar NMR chemical shifts for the Ne–furan and Ar–furan complexes calculated with pcS-3 and aug-pcS-3 basis sets were sensitive to the presence of the aromatic furan ring. Our results indicate a higher sensitivity of the neon and argon NMR probes than the previously reported 3He NMR spectroscopic parameters in studies of small heterocyclic rings containing the oxygen atom.

ArgonCarbon-13 NMR satellitemolecular modelingChemical shiftfuranOrganic Chemistry39Ar NMR spectrachemistry.chemical_elementNoble gasRing (chemistry)chemistry.chemical_compoundNeonchemistryComputational chemistryFuran21Ne NMR spectraGIAO NMR calculationsDensity functional theoryChemistry of Heterocyclic Compounds
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