Strength of Si–H ⋯ B charge-inverted hydrogen bonds in 1-silacyclopent-2-enes and 1-silacyclohex-2-enes

Jabłoński, Mirosl̷aw

doi:10.1007/s11224-017-0939-6

Cited by 20 publications

(27 citation statements)

References 61 publications

(99 reference statements)

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“…Importantly, this also shows that hydride‐triel bond may have significant role in molecular binding and in determining molecular structure. For example, most recently we have shown that the SiH⋯B contacts in some 1‐silacyclohex‐2‐enes are clearly stabilizing and strong with interaction energies of the order of 4–5 kcal/mol—the result in a full agreement with earlier studies by Wrackmeyer et al based on NMR spectroscopic data. Moreover, these energies can even be enhanced to 13–14 kcal/mol if 9‐borabicyclo[3.3.1]nonane group is substituted by the BH 2 one (see Fig.…”

Section: Resultssupporting

confidence: 91%

“…As a consequence, the main purpose of this article is to see how the strength of the H⋯Y hydride‐triel bond in systems investigated here can be influenced by substituents attached to X and Y, that is R X and R Y , respectively. Moreover, this is also to show that hydride‐triel bonds can be strong enough to considerably determine structure and properties of molecular systems …”

Section: Introductionmentioning

confidence: 95%

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Hydride‐Triel Bonds

Jabłoński

2018

J Comput Chem

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In this article, we present the results of our comprehensive studies of 72 dimers of the R3XXH⋯YR3Y type (X = Si, Ge; Y = B, Al, Ga; R = H, Cl, Me; R = H, F, Cl, Me) and featuring hydride-triel bonds (i.e., charge-inverted hydrogen bonds). Influence of X and Y atoms as well as R and R substituents on various properties of these dimers is investigated in detail. In particular the strength of the H⋯Y hydride-triel bonds is paid a close attention and it is shown that hydride-triel bonds can be strong enough to considerably determine structure and properties of molecular systems. In addition, properties of the investigated dimers are largely governed by the charge transfer from the Lewis base to the Lewis acid, which is particularly important if more bulky and polarizable R and Y atoms are present in the YR3Y molecule. Several excellent linear (R close to 1) and exponential correlations between pairs of diverse parameters are presented. Few instances are discussed where somewhat unexpected bond paths exist between two atoms featuring partial negative charges (e.g., between hydride hydrogen and halogen and between lateral sides of two halogens) showing that in some cases a bond path prefers to link two closely spaced electron-rich atoms instead of two atoms that are expected to form a bond. © 2018 Wiley Periodicals, Inc.

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Section: Resultssupporting

confidence: 91%

Section: Introductionmentioning

confidence: 95%

Hydride‐Triel Bonds

Jabłoński

2018

J Comput Chem

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“…Unfortunately, they formed a new product with the triel donor molecule. It was also demonstrated that a weakly polarized Si–H bond can bind with a strong hydrogen‐bond donor in solution . Therefore, the Si–H bond in SiHMe 3 is introduced to the triel donor atom in ZX 3 (Z = B and Al; X = H and Me).…”

Section: Resultsmentioning

confidence: 99%

“…Triel bonding exhibits some surprising cooperativity with other types of interactions including hydrogen, halogen, pnicogen and tetrel bonds since the binding distance in the strong triel bond undergoes a prominent contraction. Numerous studies have demonstrated that the intramolecular Si–H···B bridge can maintain the conformation of compounds simultaneously containing silicon and boron atoms …”

Section: Introductionmentioning

confidence: 99%

“…Numerous studies have demonstrated that the intramolecular Si-H···B bridge can maintain the conformation of compounds simultaneously containing silicon and boron atoms. [37][38][39][40][41][42] In the present paper, we study the triel bond between ZX 3 (Z = B and Al; X = H and Me) and THMe 3 (T = Si, Ge and Sn). The T-H bond in THMe 3 acts as the Lewis base in the triel bond; thus this interaction is named triel-hydride triel bond, coining the name of halogenhydride halogen bond, [43] chalcogen-hydride chalcogen bond, [44] pnicogen-hydride pnicogen bond, [45] tetrelhydride tetrel bond [46] and lithium-hydride lithium bond.…”

Section: Introductionmentioning

confidence: 99%

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Triel–hydride triel bond between ZX₃ (Z = B and Al; X = H and Me) and THMe₃ (T = Si, Ge and Sn)

Zhang

Wei

et al. 2018

Applied Organom Chemis

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Complexes between THMe3 (T = Si, Ge and Sn) and ZX3 (Z = B and Al; X = H and Me) have been characterized using MP2/aug‐cc‐pVTZ calculations. These complexes are chiefly stabilized by a triel–hydride triel bond with the T–H bond pointing to the π‐hole on the triel atom. The triel–hydride interaction is mainly attributed to the charge transfer from the T–H bond orbital to the empty p orbital of the triel atom. These complexes are very stable with a large interaction energy (>10 kcal mol−1) excluding THMe3···BMe3 (T = Si and Ge), indicating that the sp2‐hydridized triel atom has a strong affinity for the T–H bond. The formation of THMe3···BH3 results in proton transfer, characterized by conversion of orbital interaction and large charge transfer (ca 0.5e). The large deformation is primarily responsible for the abnormally greater interaction energy in THMe3···BH3 (>30 kcal mol−1) than in the AlH3 analogue. Methyl substitution on the triel atom weakens the triel–hydride interaction and causes a larger interaction energy in THMe3···AlMe3 with respect to its BMe3 counterpart. Most of these interactions possess characteristics of covalent bonds. Polarization makes a contribution to the stability of most complexes nearly equivalent to the electrostatic term.

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Triel‐Bonded Complexes between TrR₃ (Tr=B, Al, Ga; R=H, F, Cl, Br, CH₃) and Pyrazine

2018

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Complexes between TrR (Tr=B, Al, Ga; R=H, F, Cl, Br, CH ) molecules and pyrazine have been characterized at the MP2 and CCSD(T) levels of theory. The adducts can be grouped according to the type of molecular arrangement. The first situation places the Tr atom in the plane of the pyrazine ring and contains a triel bond to the N lone pair. For the boron complexes the orbital interaction energy is almost equal to the electrostatic component, while the former is only half the latter for Tr=Al and Ga. The two monomers are stacked above one another in the second configuration, which depends to a greater degree upon orbital interaction and dispersion. The former complexes are more strongly bonded than the latter. Interaction energies (E ) for the stronger complexes vary between -50 and -20 kcal/mol for BBr and Ga(CH ) paired respectively with pyrazine. E is much smaller for the stacked configurations, ranging from -8 for GaF to -1.4 kcal/mol for BF . The value of the maximum of the electrostatic potential correlates poorly with E , attributed in part to monomer distortions upon complexation.

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Strength of Si–H ⋯ B charge-inverted hydrogen bonds in 1-silacyclopent-2-enes and 1-silacyclohex-2-enes

Cited by 20 publications

References 61 publications

Hydride‐Triel Bonds

Hydride‐Triel Bonds

Triel–hydride triel bond between ZX₃ (Z = B and Al; X = H and Me) and THMe₃ (T = Si, Ge and Sn)

Triel‐Bonded Complexes between TrR₃ (Tr=B, Al, Ga; R=H, F, Cl, Br, CH₃) and Pyrazine

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Strength of Si–H ⋯ B charge-inverted hydrogen bonds in 1-silacyclopent-2-enes and 1-silacyclohex-2-enes

Cited by 20 publications

References 61 publications

Hydride‐Triel Bonds

Hydride‐Triel Bonds

Triel–hydride triel bond between ZX3 (Z = B and Al; X = H and Me) and THMe3 (T = Si, Ge and Sn)

Triel‐Bonded Complexes between TrR3 (Tr=B, Al, Ga; R=H, F, Cl, Br, CH3) and Pyrazine

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Triel–hydride triel bond between ZX₃ (Z = B and Al; X = H and Me) and THMe₃ (T = Si, Ge and Sn)

Triel‐Bonded Complexes between TrR₃ (Tr=B, Al, Ga; R=H, F, Cl, Br, CH₃) and Pyrazine