Forty years of progress in the study of the hydrogen bond

Scheiner, Steve

doi:10.1007/s11224-019-01357-2

Cited by 48 publications

(37 citation statements)

References 135 publications

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“…The interaction between an aromatic or aliphatic C─H hydrogen and an oxygen, very often a carbonyl oxygen, is one of the several weak but often numerous, non‐conventional hydrogen bonds (others are C─H … π, C─H … n , C─H … X, X─H … π, etc. ), which are very important in determining the conformations of organic compounds 91–94 . The C─H … O hydrogen bond is common in the solid state 95–98 and is implicated in the 3D structure and reactivity of proteins and other biomolecules 91–94, 99–103 …”

Section: Discussionmentioning

confidence: 99%

Cooperativity in alkane‐1,2‐ and 1,3‐polyols: NMR, QTAIM, and IQA study of O─H^…OH and C─H^…OH bonding interactions

Lomas

2020

Magnetic Reson in Chemistry

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Proton nuclear magnetic resonance chemical shifts and atom–atom interaction energies for alkanepolyols with 1,2‐diol and 1,3‐diol repeat units, and for their 1:1 pyridine complexes, are computed by density functional theory calculations. In the 1,3‐polyols, based on a tG'Gg' repeat unit, the only important intramolecular hydrogen bonding interactions are O─H…OH. By quantum theory of atoms in molecules analysis of the electron density, unstable bond and ring critical points are found for such interactions in 1,2‐polyols with tG'g repeat units, from butane‐1,2,3,4‐tetrol onwards and in their pyridine complexes from propane‐1,2,3‐triol onwards. Several features (OH proton shifts and charges, and interaction energies computed by the interacting quantum atoms approach) are used to monitor the dependence of cooperativity on chain length: This is much less regular in 1,2‐polyols than in 1,3‐polyols and by most criteria has a higher damping factor. Well defined C─H…OH interactions are found in butane‐1,2,3,4‐tetrol and higher members of the 1,2‐polyol series, as well as in their pyridine complexes: There is no evidence for cooperativity with O─H…OH bonding. For the 1,2‐polyols, there is a tenuous empirical relationship between the existence of a bond critical point for O─H…OH hydrogen bonding and the interaction energies of competing exchange channels, but the primary/secondary ratio is always less than unity.

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Section: Discussionmentioning

confidence: 99%

Cooperativity in alkane‐1,2‐ and 1,3‐polyols: NMR, QTAIM, and IQA study of O─H^…OH and C─H^…OH bonding interactions

Lomas

2020

Magnetic Reson in Chemistry

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“…N, O, F or Cl), 28 and the environment (steric hindrance, substituent, angle of H bonds, …) has also an impact on the H bond force. 29 For instance, the H bond linkage geometry is known to be flexible, but should approach linear profile to reach a minimum energy. Thus, the closer the D-H---A angle to 180°, the stronger the H bond and the shorter the H---A distance.…”

Section: Hydrogen Bonds Brief Definitionmentioning

confidence: 99%

A perspective approach on the amine reactivity and the hydrogen bonds effect on epoxy-amine systems

Mora

Tayouo

Boutevin

et al. 2020

European Polymer Journal

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Abbreviations: 3-cyclohexanedimethanamine (1,3-BAC), 2,5-bis[(2-oxiranylmethoxy)methyl]-benzene (BOB), 2,5-bis[(2-oxiranylmethoxy)-methyl]-furan (BOF), bisphenol A (BPA), 1,3-cyclohexanediamine (1,3-CHDA), carcinogenic, mutagenic and reprotoxic (CMR), 4,4'-diaminodiphenylmethane (DDM), density functional theory (DFT), diglycidyl ether of bisphenol A (DGEBA), dynamic mechanical analysis (DMA), differential scanning calorimetry (DSC), Fourier transform infrared spectroscopy (FTIR), high performance liquid chromatography (HPLC), isophoronediamine (IPDA), kinetic substitution effect (KSE), m-phenylenediamine (mPDA), m-xylylenediamine (MXDA), non-isocyanate polyurethane (NIPU), nuclear magnetic resonance (NMR), polyamide (PA), poly(εcaprolactone) (PCL), poly(diglycidyl ether of bisphenol A) (poly(DGEBA)), poly(ethylene oxide) (PEO), poly(methyl methacrylate) (PMMA), polyurethane (PU) size-exclusion (SEC), tetrafurane (THF), volatile organic compound (VOC).

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“…EBIs and XBIs are often seen as competitive interactions to hydrogen bonding interactions (HBIs), and the interested reader is addressed to the relevant papers in the field. [22][23][24][25][26][27] Since the first observation of an EBI at the solid state in the sixties, [28] and its conceptualisation in 2000, [1,3,[29][30][31][32][33] several chemical systems exploiting the chalcogen-bonding recognition in the solid state [3,[34][35][36][37] and in solution [38] have been reported in the literature. Compared to halogens, chalcogen atoms depict two -holes, and can allow the formation of two interactions (e.g., see the -holes depicted by the ESP maps of 1,2,5-telluradiazole 2Te and iodopentafluorobenzene 1, Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Chalcogen-bond driven molecular recognition at work

Biot

Bonifazi

2020

Coordination Chemistry Reviews

219

172

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Forty years of progress in the study of the hydrogen bond

Cited by 48 publications

References 135 publications

Cooperativity in alkane‐1,2‐ and 1,3‐polyols: NMR, QTAIM, and IQA study of O─H^…OH and C─H^…OH bonding interactions

Cooperativity in alkane‐1,2‐ and 1,3‐polyols: NMR, QTAIM, and IQA study of O─H^…OH and C─H^…OH bonding interactions

A perspective approach on the amine reactivity and the hydrogen bonds effect on epoxy-amine systems

Chalcogen-bond driven molecular recognition at work

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Forty years of progress in the study of the hydrogen bond

Cited by 48 publications

References 135 publications

Cooperativity in alkane‐1,2‐ and 1,3‐polyols: NMR, QTAIM, and IQA study of O─H…OH and C─H…OH bonding interactions

Cooperativity in alkane‐1,2‐ and 1,3‐polyols: NMR, QTAIM, and IQA study of O─H…OH and C─H…OH bonding interactions

A perspective approach on the amine reactivity and the hydrogen bonds effect on epoxy-amine systems

Chalcogen-bond driven molecular recognition at work

Contact Info

Product

Resources

About

Cooperativity in alkane‐1,2‐ and 1,3‐polyols: NMR, QTAIM, and IQA study of O─H^…OH and C─H^…OH bonding interactions

Cooperativity in alkane‐1,2‐ and 1,3‐polyols: NMR, QTAIM, and IQA study of O─H^…OH and C─H^…OH bonding interactions