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Literature DB >> 33150716

Theoretical, Solid-State, and Solution Quantification of the Hydrogen Bond-Enhanced Halogen Bond.

Daniel A Decato¹, Asia Marie S Riel¹, James H May¹, Vyacheslav S Bryantsev², Orion B Berryman¹.

Abstract

Proximal noncovalent forces are commonplace in natural systems and understanding the consequences of their juxtaposition is critical. This paper experimentally quantifies for the first time a Hydrogen Bond-Enhanced Halogen Bond (HBeXB) without the complexities of protein structure or preorganization. An HBeXB is a halogen bond that has been strengthened when the halogen donor simultaneously accepts a hydrogen bond. Our theoretical studies suggest that electron-rich halogen bond donors are strengthened most by an adjacent hydrogen bond. Furthermore, stronger hydrogen bond donors enhance the halogen bond the most. X-ray crystal structures of halide complexes (X- =Br- , I- ) reveal that HBeXBs produce shorter halogen bonds than non-hydrogen bond analogues. 19 F NMR titrations with chloride highlight that the HBeXB analogue exhibits stronger binding. Together, these results form the foundation for future studies concerning hydrogen bonds and halogen bonds in close proximity.

Entities: Chemical

Keywords: bond theory; halogen bonds; hydrogen bonds; noncovalent cooperativity; supramolecular chemistry

Mesh：

Substances：
Chlorides

Year: 2020 PMID： 33150716 PMCID： PMC8211297 DOI： 10.1002/anie.202012262

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

26 in total

Review 1. Organic fluorine: odd man out.

Authors: Jack D Dunitz
Journal: Chembiochem Date: 2004-05-03 Impact factor: 3.164

2. A cartography of the van der Waals territories.

Authors: Santiago Alvarez
Journal: Dalton Trans Date: 2013-05-01 Impact factor: 4.390

3. Halocarbons as hydrogen bond acceptors: a spectroscopic study of haloethylbenzenes (PhCH₂CH₂X, X = F, Cl, Br) and their hydrate clusters.

Authors: Patrick A Robertson; Luigi Villani; Uresha L M Dissanayake; Luke F Duncan; Belinda M Abbott; David J D Wilson; Evan G Robertson
Journal: Phys Chem Chem Phys Date: 2018-03-12 Impact factor: 3.676

Theoretical, Solid-State, and Solution Quantification of the Hydrogen Bond-Enhanced Halogen Bond.

Review 1. Organic fluorine: odd man out.

2. A cartography of the van der Waals territories.

3. Halocarbons as hydrogen bond acceptors: a spectroscopic study of haloethylbenzenes (PhCH₂CH₂X, X = F, Cl, Br) and their hydrate clusters.

4. Fluorine as a hydrogen-bond acceptor: experimental evidence and computational calculations.

5. Halogen bonds in crystal engineering: like hydrogen bonds yet different.

Review 6. Hydrogen Bond Enhanced Halogen Bonds: A Synergistic Interaction in Chemistry and Biochemistry.

7. The hydrogen bond between N-H or O-H and organic fluorine: favourable yes, competitive no.

8. Ultrahigh resolution drug design I: details of interactions in human aldose reductase-inhibitor complex at 0.66 A.

9. C-X...H contacts in biomolecular systems: how they contribute to protein-ligand binding affinity.

10. The intramolecular hydrogen bonded-halogen bond: a new strategy for preorganization and enhanced binding.

1. Halogen bonding organocatalysis enhanced through intramolecular hydrogen bonds.

2. Nature of the Hydrogen Bond Enhanced Halogen Bond.

3. Are bis(pyridine)iodine(I) complexes applicable for asymmetric halogenation?