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Nx∙∙Y Halogen Bonds. Comparison With Nh∙∙Y H-Bonds And Cx∙∙Y Halogen Bonds, Binod Nepal, Steve Scheiner
Nx∙∙Y Halogen Bonds. Comparison With Nh∙∙Y H-Bonds And Cx∙∙Y Halogen Bonds, Binod Nepal, Steve Scheiner
Chemistry and Biochemistry Faculty Publications
Quantum calculations examine how the NH∙∙Y H-bond compares to the equivalent NX∙∙Y halogen bond, as well as to comparable CH/CX donors. Succinimide and saccharin, and their corresponding halogen-substituted derivatives, are chosen as the prototype NH/NX donors, paired with a wide range of electron donor molecules. The NH∙∙Y H-bond is weakened if the bridging H is replaced by Cl, and strengthened by I; a Br halogen bond is roughly comparable to a H-bond. The lone pairs of the partner molecule are stronger electron donors than are π-systems. Whereas Coulombic forces represent the largest fraction of the attractive force in the H-bonds, …
Catalysis Of The Aza-Diels-Alder Reaction By Hydrogen And Halogen Bonds, Vincent De Paul Nzuwah-Nziko, Steve Scheiner
Catalysis Of The Aza-Diels-Alder Reaction By Hydrogen And Halogen Bonds, Vincent De Paul Nzuwah-Nziko, Steve Scheiner
Chemistry and Biochemistry Faculty Publications
The combination of H2C=NH and cis-1,3-butadiene to form a six-membered ring was examined by quantum calculations. The energy barrier for this reaction is substantially lowered by the introduction of an imidazolium catalyst with either a H or halogen (X) atom in the 2-position, which acts via a H or halogen bond to the N atom of the imine, respectively. X=I has the largest effect, and Cl the smallest; Br and H are roughly equivalent. The catalyst retards the formation of the incipient N-C bond from imine to diene while simultaneously accelerating the C-C bond formation. The energy of the π* …
Comparison Of Π-Hole Tetrel Bonding With Σ-Hole Halogen Bonds In Complexes Of Xcn (X = F, Cl, Br, I) And Nh3, Steve Scheiner, Vincent De Paul Nziko
Comparison Of Π-Hole Tetrel Bonding With Σ-Hole Halogen Bonds In Complexes Of Xcn (X = F, Cl, Br, I) And Nh3, Steve Scheiner, Vincent De Paul Nziko
Chemistry and Biochemistry Faculty Publications
In addition to the standard halogen bond formed when NH3 approaches XCN (X=F,Cl,Br,I) along its molecular axis, a perpendicular approach is also possible, toward a π-hole that is present above the X-C bond. MP2/aug-cc-pVDZ calculations indicate the latter geometry is favored for X=F, and the σ-hole structure is preferred for the heavier halogens. The π-hole structure is stabilized by charge transfer from the NH3 lone pair into the π*(CN) antibonding orbital, and is characterized by a bond path from the N of NH3 to the C atom of XCN, a form of tetrel bond. The most stable …