More Like this

1. Influence of Substituents in the Benzene Ring on the Halogen Bond of Iodobenzene with Ammonia

   https://doi.org/10.1002/cphc.202200011  

   Scheiner, Steve ; Hunter, Sarah ( February 2022 , ChemPhysChem)

   The effects on the C−I⋅⋅N halogen bond between iodobenzene and NH₃of placing various substituents on the phenyl ring are monitored by quantum calculations. Substituents R=N(CH₃)₂, NH₂, CH₃, OCH₃, COCH₃, Cl, F, COH, CN, and NO₂were each placed ortho, meta, and para to the I. The depth of the σ‐hole on I is deepened as R becomes more electron‐withdrawing which is reflected in a strengthening of the halogen bond, which varied between 3.3 and 5.5 kcal mol⁻¹. In most cases, the ortho placement yields the largest perturbation, followed by meta and then para, but this trend is not universal. Parallel to these substituent effects is a progressive lengthening of the covalent C−I bond. Formation of the halogen bond reduces the NMR chemical shielding of all three nuclei directly involved in the C−I⋅⋅N interaction. The deshielding of the electron donor N is most closely correlated with the strength of the bond, as is the coupling constant between I and N, so both have potential use as spectroscopic measures of halogen bond strength.

    

   more » « less
2. Spectroscopic Measurement of a Halogen Bond Energy

   https://doi.org/10.1002/ange.201906279  

   Zhang, Xinxing ; Liu, Gaoxiang ; Ciborowski, Sandra ; Wang, Wei ; Gong, Chu ; Yao, Yifan ; Bowen, Kit ( July 2019 , Angewandte Chemie)

   Halogen bonding (XB) has emerged as an important bonding motif in supramolecules and biological systems. Although regarded as a strong noncovalent interaction, benchmark measurements of the halogen bond energy are scarce. Here, a combined anion photoelectron spectroscopy and density functional theory (DFT) study of XB in solvated Br⁻anions is reported. The XB strength between the positively‐charged σ‐hole on the Br atom of the bromotrichloromethane (CCl₃Br) molecule and the Br⁻anion was found to be 0.63 eV (14.5 kcal mol⁻¹). In the neutral complexes, Br(CCl₃Br)_1,2, the attraction between the free Br atom and the negatively charged equatorial belt on the Br atom of CCl₃Br, which is a second type of halogen bonding, was estimated to have interaction strengths of 0.15 eV (3.5 kcal mol⁻¹) and 0.12 eV (2.8 kcal mol⁻¹).

    

   more » « less
3. Spectroscopic Measurement of a Halogen Bond Energy

   https://doi.org/10.1002/anie.201906279  

   Zhang, Xinxing ; Liu, Gaoxiang ; Ciborowski, Sandra ; Wang, Wei ; Gong, Chu ; Yao, Yifan ; Bowen, Kit ( July 2019 , Angewandte Chemie International Edition)

   Halogen bonding (XB) has emerged as an important bonding motif in supramolecules and biological systems. Although regarded as a strong noncovalent interaction, benchmark measurements of the halogen bond energy are scarce. Here, a combined anion photoelectron spectroscopy and density functional theory (DFT) study of XB in solvated Br⁻anions is reported. The XB strength between the positively‐charged σ‐hole on the Br atom of the bromotrichloromethane (CCl₃Br) molecule and the Br⁻anion was found to be 0.63 eV (14.5 kcal mol⁻¹). In the neutral complexes, Br(CCl₃Br)_1,2, the attraction between the free Br atom and the negatively charged equatorial belt on the Br atom of CCl₃Br, which is a second type of halogen bonding, was estimated to have interaction strengths of 0.15 eV (3.5 kcal mol⁻¹) and 0.12 eV (2.8 kcal mol⁻¹).

    

   more » « less
4. Anion–anion and anion–neutral triel bonds

   https://doi.org/10.1039/D0CP06547A  

   Wysokiński, Rafał ; Michalczyk, Mariusz ; Zierkiewicz, Wiktor ; Scheiner, Steve ( March 2021 , Physical Chemistry Chemical Physics)

   null (Ed.)

   The ability of a TrCl 4 − anion (Tr = Al, Ga, In, Tl) to engage in a triel bond with both a neutral NH 3 and CN − anion is assessed by ab initio quantum calculations in both the gas phase and in aqueous medium. Despite the absence of a positive σ or π-hole on the Lewis acid, strong triel bonds can be formed with either base. The complexation involves an internal restructuring of the tetrahedral TrCl 4 − monomer into a trigonal bipyramid shape, where the base can occupy either an axial or equatorial position. Although this rearrangement requires a substantial investment of energy, it aids the complexation by imparting a much more positive MEP to the site that is to be occupied by the base. Complexation with the neutral base is exothermic in the gas phase and even more so in water where interaction energies can exceed 30 kcal mol −1 . Despite the long-range coulombic repulsion between any pair of anions, CN − can also engage in a strong triel bond with TrCl 4 − . In the gas phase, complexation is endothermic, but dissociation of the metastable dimer is obstructed by an energy barrier. The situation is entirely different in solution, with large negative interaction energies of as much as −50 kcal mol −1 . The complexation remains an exothermic process even after the large monomer deformation energy is factored in. 

   more » « less
5. Enhancement of tetrel bond involving tetrazole-TtR 3 (Tt = C, Si; R = H, F). Promotion of SiR 3 transfer by a triel bond

   https://doi.org/10.1039/D2CP04194D  

   Wu, Qiaozhuo ; Xie, Xiaoying ; Li, Qingzhong ; Scheiner, Steve ( November 2022 , Physical Chemistry Chemical Physics)

   When attached to a tetrazole, a TtR 3 group (Tt = C, Si; R = H, F) engages in a Tt⋯N tetrel bond (TtB) with the Lewis base NCM (M = Li, Na). MP2/aug-cc-pVTZ calculations find that the Si⋯N TtB is rather strong, more than 20 kcal mol −1 for SiH 3 , and between 46 and 53 kcal mol −1 for SiF 3 . The C⋯N TtBs are relatively weaker, less than 8 kcal mol −1 . All of these bonds are intensified when a BH 3 or BF 3 molecule forms a triel bond to a N atom of the tetrazole ring, particularly for the C⋯N TtB, up to 11 kcal mol −1 . In these triads, the SiR 3 group displaces far enough along the line toward the base that it may be thought of as half transferred. 

   more » « less