Effects of pnictogen and chalcogen bonds on the aromaticities of carbazole-like and dibenzofuran-like molecular skeletons: Cambridge Crystallographic Data Centre (CCDC) Study

Karabıyık, Hande; Sevinçek, Resul

doi:10.1002/poc.3442

Cited by 9 publications

(6 citation statements)

References 47 publications

(109 reference statements)

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“…Also, The HOMO-LUMO energy gap (ΔE) represents the lowest energy electronic transition which mainly belongs to π-π* excitation [33]. HOMO-LUMO band gap increases linearly with increasing aromaticity [34]. Thiophene ring is more aromatic structure.…”

Section: Frontier Molecular Orbitalsmentioning

confidence: 99%

Structural Characterization, Theoretical Investigation and Hirshfeld Surface Analysis of 2,6-(E,E)-bis((thiophene-2-yl)methylene)cyclohexanone

Yakalı¹,

Biçer²,

Cin

2019

Turkish Computational and Theoretical Chemistry

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The title bis(chalcone) compound has been synthesized and characterized by FTIR, 1H-NMR, 13C-NMR techniques, X-ray structure analysis. The optimized molecular structure of the studied compound is calculated using DFT/B3LYP with 6-31G (d,p) level. The calculated geometrical parameters are in compatible with the experimental data obtained from X-ray structure analysis. The calculated IR fundamental bands, 1H and 13C-NMR chemical shifts of the compound were assigned and compared with the experimental data. Additionally, frontier molecular orbital energies (HOMO, LUMO), their energy gap (∆E), molecular electrostatic potential analysis of the compound have been calculated by the same method. The charge distribution of the molecule is obtained with molecular electrostatic potential (MEP). In addition, the intercontacts in the crystal structure are analyzed using Hirshfeld surfaces computational method. The title compound (C16H14OS2) crystallizes in the monoclinic chiral space group P21/c with a=15.0492(10)Å, b=12.0085(9)Å, c=7.6283(6) Å, β=95.883(7)o, V=1371.31(17)Å3, Dcalc=1.387g/cm3. The central cyclohexanone ring has a chair conformation and the the fragments at the vinyl group of the compound exhibit a trans conformation, and the two thiophene rings adopt a syn conformation and are located on the both side of the cyclohexanone. The asymmetric unit of the title compound, C16H14OS2, contains one-half of a molecule. The other half of the molecule is generated with (x,y,-z) symmetry operator. In the molecule there are two weak C-H…S and C-H…O intramolecular and only C-H…O intermolecular hydrogen bonds. In addition, π…π interactions are found in the crystal structure between the thiophene rings.

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Section: Frontier Molecular Orbitalsmentioning

confidence: 99%

Structural Characterization, Theoretical Investigation and Hirshfeld Surface Analysis of 2,6-(E,E)-bis((thiophene-2-yl)methylene)cyclohexanone

Yakalı¹,

Biçer²,

Cin

2019

Turkish Computational and Theoretical Chemistry

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“…As outlined in Scheme , the phosphole core is often incorporated into larger aromatic systems with one or two annulated (hetero‐)aromatic ring systems. The retaining of aromaticity at the annulated (hetero‐)aryls leads to a further decrease of aromaticity at the phosphole ring, altering the optical properties . The formation of these larger planar π‐conjugated systems enhances desirable properties, such as a reduced HOMO–LUMO splitting (E g ) and red‐shifted absorption and emission maxima.…”

Section: Cyclic Structures Containing Phosphorus and Other Heteroelemmentioning

confidence: 99%

Organophosphorus Compounds in Organic Electronics

Shameem

Orthaber

2016

Chemistry A European J

214

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This Minireview describes recent advances of organophosphorus compounds as opto-electronic materials in the field of organic electronics. The progress of (hetero-) phospholes, unsaturated phosphanes, and trivalent and pentavalent phosphanes since 2010 is covered. The described applications of organophosphorus materials range from single molecule sensors, field effect transistors, organic light emitting diodes, to polymeric materials for organic photovoltaic applications.

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“…Keto‐enol tautomerism (KET) is very important in carbonyl chemistry (carbonyl specialty reactions) and also in several areas of biochemistry . In recent years, much attention has been paid to the experimental and theoretical studies of KET and proton transfer in enol tautomer of phenols, aldehydes, β‐diketones, and hydrazones . As can be seen, among the publications on KET, the dominate works that also deal with the subject of the resonance‐assisted hydrogen bonds (RAHBs) .…”

Section: Introductionmentioning

confidence: 99%

“…[43] In recent years, much attention has been paid to the experimental and theoretical studies of KET and proton transfer in enol tautomer of phenols, [44] aldehydes, [45][46][47][48][49][50] β-diketones, [45][46][47][48][49][50][51][52][53][54][55] and hydrazones. [56][57][58] As can be seen, among the publications on KET, [43][44][45][46][47][48][49][50][51][52][53][54][55][56][57][58] the dominate works that also deal with the subject of the resonance-assisted hydrogen bonds (RAHBs). [48,56,57] It can therefore be concluded that these phenomena (KET and RAHB) are closely related and often occur together.…”

Section: Introductionmentioning

confidence: 99%

Investigations of the hydrogen bond in the crystals of tropolone and thiotropolone via car‐parrinello and path integral molecular dynamics

Durlak

Latajka

2018

J Comput Chem

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Car‐Parrinello and path integrals molecular dynamics (CPMD and PIMD) simulations were carried out for the 10π‐electron aromatic systems: 2‐hydroxy‐2,4,6‐cycloheptatrien‐1‐one, commonly known as Tropolone (I) and 2‐hydroxy‐2,4,6‐cycloheptatriene‐1‐thione, called Thiotropolone (II) in vacuo and in the solid state. The extremely fast proton transfer (FPT) and “prototropy” tautomerism in the keto‐enol (thione‐enethiol) systems have been analyzed on the basis of CPMD and PIMD methods level. Comparisons of two‐dimensional (2D) free‐energy landscapes of reaction coordinate δ‐parameter and RO…O or RO…S distances shows that the OH… tautomer to be more favorable in the Thiotropolone. The hydrogen between the oxygen and the sulfur atoms adopts a starkly asymmetrical position in the double potential well. The values of the energy barriers for the FPT were calculated and suggested a strong hydrogen bond with low barrier for FPT mechanism. These studies and the 2D average index of π‐delocalization 〈λ〉 landscape of time evolutions of RO1…O2 and RC7O2 or RC7S1 distances for the both crystals indicate that hydrogen bonds in the crystals of Tropolone (I) and Thiotropolone (II) have characteristic properties for the type of bonding model resonance‐assisted hydrogen bonds and also low‐barrier hydrogen bonds. In the crystal of the Thiotropolone (II), we found the hydrogen bond OH…S existing without the equilibrium of the two tautomers whereas in the crystal of the Tropolone (I) has been confirmed the hydrogen bond OH…O existing with the equilibrium of the two tautomers. It was also found the significant differences in frequency, speed, and the image of the FPT in the studied crystals. © 2018 Wiley Periodicals, Inc.

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Effects of pnictogen and chalcogen bonds on the aromaticities of carbazole-like and dibenzofuran-like molecular skeletons: Cambridge Crystallographic Data Centre (CCDC) Study

Cited by 9 publications

References 47 publications

Structural Characterization, Theoretical Investigation and Hirshfeld Surface Analysis of 2,6-(E,E)-bis((thiophene-2-yl)methylene)cyclohexanone

Structural Characterization, Theoretical Investigation and Hirshfeld Surface Analysis of 2,6-(E,E)-bis((thiophene-2-yl)methylene)cyclohexanone

Organophosphorus Compounds in Organic Electronics

Investigations of the hydrogen bond in the crystals of tropolone and thiotropolone via car‐parrinello and path integral molecular dynamics

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