Intermolecular steric hindrance in 7-acylamino-[1H]-2-oxo-1,8-naphthyridines: NMR, ESI-MS, IR, and DFT calculation studies

Ośmiałowski, Borys; Kolehmainen, Erkki; Kalenius, Elina; Behera, Babita; Kauppinen, Reijo; Sievänen, Elina

doi:10.1007/s11224-011-9808-x

Cited by 14 publications

(24 citation statements)

References 55 publications

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“…This shows that 2 in its dimeric form has a weak C–H···OC hydrogen bond that can solidify the conformational form (Figure ) and prevent it from rotating to create the forms with intramolecular N–H···N H-bonding. Although this effect is relatively weak, intermolecular or intramolecular H-bonding of C–H···N/O has been reported earlier. , The change in the chemical shift (8.19–6.83 ppm) of the aromatic proton in the proximity of OC (dark blue) is also induced due to an anisotropic deshielding cone of OC in full agreement with similar heterocyclic ureas. ,, This interaction is more probable in the case of the hydrogen-bonded dimer in which rotation is limited due to six hydrogen bonds with the other monomer. Therefore, when the intermolecular H-bonding is broken, the rotation occurs implying that in the monomeric form, keto tautomer is more stable, whereas the keto dimer is a stable conformation when the two stickers are in close proximity to each other, in nonpolar solvents or the melt state.…”

Section: Resultssupporting

confidence: 77%

“…This is also consistent with our 1 H NMR analysis showing that in the dimerized form in chloroform (or in vacuum), keto form is the most stable dimer/conformer. This value for similar naphthyridine-based compounds with DADA-type H-bonding was only −16.55 to −23.58 kcal mol –1 , 36 implying that the bifurcated urea hydrogen bond plays a significant role in the dimerization of 2 .…”

Section: Resultsmentioning

confidence: 97%

“…34,35 The change in the chemical shift (8.19–6.83 ppm) of the aromatic proton in the proximity of O=C (dark blue) is also induced due to an anisotropic deshielding cone of O=C in full agreement with similar heterocyclic ureas. 33,34,36 This interaction is more probable in the case of the hydrogen-bonded dimer in which rotation is limited due to six hydrogen bonds with the other monomer. Therefore, when the intermolecular H-bonding is broken, the rotation occurs implying that in the monomeric form, keto tautomer is more stable, whereas the keto dimer is a stable conformation when the two stickers are in close proximity to each other, in nonpolar solvents or the melt state.…”

Section: Resultsmentioning

confidence: 99%

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Supramolecular Mimic for Bottlebrush Polymers in Bulk

Golkaram¹,

Boetje²,

Dong³

et al. 2019

ACS Omega

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A series of poly(tetrahydrofuran)s with molecular weights above entanglement molecular weight Me were synthesized, and one of their end-groups was functionalized with a supramolecular entity so that the corresponding polymers form a brushlike structure suitable for comparison with conventional irreversible bottlebrush polymers. To compare their relaxation mechanisms, linear rheology was employed and showed that a hierarchical relaxation, which is usually observed in bottlebrush polymers, occurs in these materials, too. The polymer chain segments close to the supramolecular backbone are highly immobilized due to strong association in the center of polymer brush and cannot relax via reptation mechanism, which is mainly responsible for linear entangled polymer relaxations. Therefore, disentanglement can take much longer through contour length fluctuations and arm retraction processes similar to covalent bottlebrush polymers and combs. The relaxed ends of polymers then act as solvent to let the remaining segments of the polymeric brush undergo Rouse-like motions (constraint release Rouse). At longer times, additional plateau appears, which can be attributed to the relaxation of the entire supramolecular bottlebrush polymer via hopping or reptative motions. With an increase of temperature, viscoelastic solid behavior turns into viscoelastic liquid due to reversible depolymerization of the supramolecular backbone of the bottlebrush polymer. The elastic modulus (G′ in the order of kPa) was much less than the values found for the entanglement plateau modulus of linear poly(tetrahydrofuran) (in order of MPa). This low modulus value, which exists up to very low frequencies (high temperatures), makes them a good candidate for supersoft elastomers.

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Section: Resultssupporting

confidence: 77%

Section: Resultsmentioning

confidence: 97%

Section: Resultsmentioning

confidence: 99%

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Supramolecular Mimic for Bottlebrush Polymers in Bulk

Golkaram¹,

Boetje²,

Dong³

et al. 2019

ACS Omega

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“…It has been shown how hydrogen bonding can be used in designing the shape of aggregate [5][6][7] in solution and in solid state [8]. Generally, non-covalent intermolecular interactions are influenced by steric effects [9][10][11][12], electronic repulsion [11,13], position of the heteroatoms in the ring [14][15][16], and cooperative effects [17]. The atoms able to compete for hydrogen bonds (basic or acidic centers) are responsible for the conformational flexibility of NH-CO bond in amides [18][19][20].…”

Section: Introductionmentioning

confidence: 99%

The influence of CH bond polarization on the self-association of 2-acylaminopyrimidines by NH/CH···O/N interactions: XRD, NMR, DFT, and AIM study

et al. 2013

Self Cite

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The single crystal structures of two 2-acylaminopyrimidines, where alkyl groups in acyl moiety are iso-propyl (1) and dichloromethyl (2), were solved by X-ray diffraction method. The strength of intermolecular hydrogen bonding interactions depends on the C-H bond polarization increased by exchanging two methyl groups by chlorine atoms in the adjacent substituent. The computational methods provide an additional insight into the intermolecular interactions and are utilized in explaining the differences in the observed crystal structures. The experimental and computational data together explain the differences in the formed aggregates and revealed that these simple substitutions cause crucial changes in the intermolecular interactions.

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“…The fact that double hydrogen bonded neutral molecules barely form dimers in polar solvent is in agreement with the studies of 2-acylamino-1,8-naphthyridin-7-ones that are stabilized in its dimeric form by quadruple hydrogen bonding (in CDCl 3 ). 38 The same hydrogen-bonding pattern is present in the cis form of 1, but both, the mentioned naphthyridine derivative and cis-1, do not dimerize in DMSO. Since anions [39][40][41][42][43] are able to interact with urea moiety in polar and highly competitive solvents, 7 the tetrabutylammonium salt 2 was used in association (vide infra) experiments.…”

Section: Association Studiesmentioning

confidence: 88%