A new Cl-Cl···O-N halogen-bonded paradigm has been demonstrated, using dichlorine as a halogen bond (XB) donor and -oxide as an XB acceptor. Their crystalline complexes were formed during the warm-up process from -196 °C to -80 °C for X-ray diffraction analysis. They exhibit high instability in the crystalline state, even at these low temperatures, leading to rapid decomposition and the formation of Cl⋯H-O-N hydrogen-bonded complexes. The normalized XB interaction ratio ( ) of Cl⋯O interactions in the solid-state demonstrates affinity comparable to traditional I⋯O interactions observed in I-I···O-N halogen-bonded systems. The Cl-Cl⋯O XB angles vary from 172° to 177°, manifesting the structure-guiding influence of the electronegative chlorine atom's σ-hole on these XB interactions.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11526815 | PMC |
| http://dx.doi.org/10.1039/d4sc06270a | DOI Listing |
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Chem Sci
October 2024
Department of Chemistry, University of Jyvaskyla P.O. BOX 35 FI-40014 Jyväskylä Finland
A new Cl-Cl···O-N halogen-bonded paradigm has been demonstrated, using dichlorine as a halogen bond (XB) donor and -oxide as an XB acceptor. Their crystalline complexes were formed during the warm-up process from -196 °C to -80 °C for X-ray diffraction analysis. They exhibit high instability in the crystalline state, even at these low temperatures, leading to rapid decomposition and the formation of Cl⋯H-O-N hydrogen-bonded complexes.
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