Molecular modeling and experimental studies on structure and NMR parameters of 9-benzyl-3,6-diiodo-9H-carbazole

Abstract: 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 13 C nuclear magnetic resonance (NMR) studies were supported by advanced density functional theory calculations. The non-relativistic structure optimization was performed and the 13 C nuclear magnetic shieldings were predicted at the relativistic level of theory using the zeroth-order regular approximation. The changes in the benzene and pyrrole rings compared … Show more

“…The significant errors with a rootmean-square deviation (RMS) of 6.23 ppm (for SO ZORA calculations RMS = 0.87 ppm) are visible for these two carbon chemical shifts predicted using non-relativistic calculations ( Table 4). The RMS is smaller than for the previously studied 9-benzyl-3,6-diiodo-9H-carbazole [58]. The observed HALA effects are very close to earlier results for halogen-substituted carbon atoms [35,41,66] and for our previous study of benzylcarbazole derivative (there the HALA effect was -42 ppm) [58].…”

“…The RMS is smaller than for the previously studied 9-benzyl-3,6-diiodo-9H-carbazole [58]. The observed HALA effects are very close to earlier results for halogen-substituted carbon atoms [35,41,66] and for our previous study of benzylcarbazole derivative (there the HALA effect was -42 ppm) [58]. The other carbons, especially atoms responsible for the rigidity and planarity Weighting scheme…”

“…These non-relativistic (NR) calculations were carried out using GAUS-SIAN 09 [57]. In our previous work [58], we reported on the structural parameters for 9-benzyl-3,6-diiodo-9H-carbazole obtained at the relativistic (R) SO ZORA (B3LYP/ DZP/TZP) level of theory. These results were of similar accuracy to the results of the non-relativistic calculations.…”

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

“…The significant errors with a rootmean-square deviation (RMS) of 6.23 ppm (for SO ZORA calculations RMS = 0.87 ppm) are visible for these two carbon chemical shifts predicted using non-relativistic calculations ( Table 4). The RMS is smaller than for the previously studied 9-benzyl-3,6-diiodo-9H-carbazole [58]. The observed HALA effects are very close to earlier results for halogen-substituted carbon atoms [35,41,66] and for our previous study of benzylcarbazole derivative (there the HALA effect was -42 ppm) [58].…”

“…The RMS is smaller than for the previously studied 9-benzyl-3,6-diiodo-9H-carbazole [58]. The observed HALA effects are very close to earlier results for halogen-substituted carbon atoms [35,41,66] and for our previous study of benzylcarbazole derivative (there the HALA effect was -42 ppm) [58]. The other carbons, especially atoms responsible for the rigidity and planarity Weighting scheme…”

“…These non-relativistic (NR) calculations were carried out using GAUS-SIAN 09 [57]. In our previous work [58], we reported on the structural parameters for 9-benzyl-3,6-diiodo-9H-carbazole obtained at the relativistic (R) SO ZORA (B3LYP/ DZP/TZP) level of theory. These results were of similar accuracy to the results of the non-relativistic calculations.…”

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

“…Relativistic effects in NMR chemical shifts and spinspin coupling constants known as "Heavy Atom on Light Atom" (HALA) effects were evaluated in a great number of molecules containing "heavy" elements, see some salient earlier publications [117][118][119][120][121][122][123][124][125][126] together with some more recent and most recent ones [127][128][129][130][131][132][133][134][135][136][137][138][139][140][141][142][143][144][145] and many other related papers, [146][147][148][149][150][151][152][153][154][155] which are not cited herewith in full in view of their multiplicity.…”

Computational ¹H NMR: Part 1. Theoretical background

“…The HALA effects induced by neighboring heavy atoms (HAs) on 13 C chemical shifts have been studied for a long time, though, the most part of works deals with the HALA effect induced by the heavy halogens [3,4,[13][14][15][16][17][18][19][20][21][22] or by neighboring heavy transition metals. [6,11,23,24] At the present moment, with the exception for several casual communications, [25][26][27][28] there is no systematic study of the HALA effect on carbon chemical shifts induced by heavy chalcogens.…”

Relativistic heavy atom effect on ¹³C NMR chemical shifts initiated by adjacent multiple chalcogens