Wenzuo Li scite author profile

A single-electron tetrel bond was predicted and characterized in FXH3···CH3 (X = C, Si, Ge, and Sn) complexes by performing quantum chemical calculations, where the methyl radical acts as the Lewis base and the σ-hole on the X atom in FXH3 as the Lewis acid. The interaction between the methyl radical and FXH3 is characterized by a red shift of F-X stretching frequency. The strength of the tetrel bond becomes stronger by not only increasing the atomic number of the central atom X (X = C, Si, Ge, and Sn) but also by enhancing the electron-withdrawing ability of substituents in the Lewis acid. The energy decomposition analysis highlights the importance of the electrostatic interaction in the formation of the tetrel bond, although the dispersion part is also non-negligible for the weak tetrel bond. There is a competition between the formation of single-electron tetrel bonds and hydrogen bonds for the complexes composed of the methyl radical and CNCH3 or NCCH3. Furthermore, the single-electron tetrel bond exhibits the cooperative effect not only with the hydrogen bond in the complex of NCH···NCCH3···CH3, but also with the conventional tetrel bond in NCCH3···NCCH3···CH3.

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Cooperativity between the Halogen Bond and the Hydrogen Bond in H₃N⋅⋅⋅XY⋅⋅⋅HF Complexes (X, Y=F, Cl, Br)

Lin

et al. 2008

ChemPhysChem

158

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Ab initio calculations are used to provide information on H(3)N...XY...HF triads (X, Y=F, Cl, Br) each having a halogen bond and a hydrogen bond. The investigated triads include H(3)N...Br(2)-HF, H(3)N...Cl(2)...HF, H(3)N...BrCl...HF, H(3)N...BrF...HF, and H(3)N...ClF...HF. To understand the properties of the systems better, the corresponding dyads are also investigated. Molecular geometries, binding energies, and infrared spectra of monomers, dyads, and triads are studied at the MP2 level of theory with the 6-311++G(d,p) basis set. Because the primary aim of this study is to examine cooperative effects, particular attention is given to parameters such as cooperative energies, many-body interaction energies, and cooperativity factors. The cooperative energy ranges from -1.45 to -4.64 kcal mol(-1), the three-body interaction energy from -2.17 to -6.71 kcal mol(-1), and the cooperativity factor from 1.27 to 4.35. These results indicate significant cooperativity between the halogen and hydrogen bonds in these complexes. This cooperativity is much greater than that between hydrogen bonds. The effect of a halogen bond on a hydrogen bond is more pronounced than that of a hydrogen bond on a halogen bond.

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Concerted Interaction between Pnicogen and Halogen Bonds in XClFH₂PNH₃(X=F, OH, CN, NC, and FCC)

Liu

et al. 2012

ChemPhysChem

127

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We analyze the interplay between pnicogen-bonding and halogen-bonding interactions in the XCl-FH(2)P-NH(3) (X=F, OH, CN, NC, and FCC) complex at the MP2/aug-cc-pVTZ level. Synergetic effects are observed when pnicogen and halogen bonds coexist in the same complex. These effects are studied in terms of geometric and energetic features of the complexes. Natural bond orbital theory and Bader's theory of "atoms in molecules" are used to characterize the interactions and analyze their enhancement with varying electron density at critical points and orbital interactions. The physical nature of the interactions and the mechanism of the synergetic effects are studied using symmetry-adapted perturbation theory. By taking advantage of all the aforementioned computational methods, the present study examines how both interactions mutually influence each other.

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Competition between hydrogen bond and halogen bond in complexes of formaldehyde with hypohalous acids

Liu

Jing

et al. 2010

Phys. Chem. Chem. Phys.

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An ab initio study of the complexes formed by hypohalous acids (HOX, X = F, Cl and Br) with formaldehyde has been carried out at the MP2/aug-cc-pVTZ computational level. Two minima complexes are found, one with an H...O contact and the other one with an X...O contact. The former is more stable than the latter, and the strength difference between them decreases as the size of the X atom increases. The associated HO and XO bonds undergo a bond lengthening and red shift, whereas a blue shift was observed in the bond of the hypohalous acid not involved in the interaction. The interaction strength and properties in both complexes are analyzed with atoms in molecules (AIM) and natural bond orbital (NBO) theories. The energy decomposition analyses indicate that the contribution from the electrostatic interaction energy is larger in the hydrogen-bonded complexes than that in the halogen-bonded complexes.

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Wenzuo Li

Is a Hm−1X (X=O, S, Se, m=1; X=N, m=2; X=C, m=3) radical a better proton donor than HmX–H in hydrogen bonding?

A σ-hole interaction with radical species as electron donors: does single-electron tetrel bonding exist?

Cooperativity between the Halogen Bond and the Hydrogen Bond in H₃N⋅⋅⋅XY⋅⋅⋅HF Complexes (X, Y=F, Cl, Br)

Concerted Interaction between Pnicogen and Halogen Bonds in XClFH₂PNH₃(X=F, OH, CN, NC, and FCC)

Competition between hydrogen bond and halogen bond in complexes of formaldehyde with hypohalous acids

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Wenzuo Li

Is a Hm−1X (X=O, S, Se, m=1; X=N, m=2; X=C, m=3) radical a better proton donor than HmX–H in hydrogen bonding?

A σ-hole interaction with radical species as electron donors: does single-electron tetrel bonding exist?

Cooperativity between the Halogen Bond and the Hydrogen Bond in H3N⋅⋅⋅XY⋅⋅⋅HF Complexes (X, Y=F, Cl, Br)

Concerted Interaction between Pnicogen and Halogen Bonds in XClFH2PNH3(X=F, OH, CN, NC, and FCC)

Competition between hydrogen bond and halogen bond in complexes of formaldehyde with hypohalous acids

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Cooperativity between the Halogen Bond and the Hydrogen Bond in H₃N⋅⋅⋅XY⋅⋅⋅HF Complexes (X, Y=F, Cl, Br)

Concerted Interaction between Pnicogen and Halogen Bonds in XClFH₂PNH₃(X=F, OH, CN, NC, and FCC)