Exploration of relative π-electron localization in naphthalene aromatic rings by C-H⋯π interactions: Experimental evidence, computational criteria, and database analysis

Ali Samie, Alireza Salimi, Jered C. Garrison

Research output: Contribution to journalArticle


Based on the crystal engineering concept, four new esters containing α and β-substituted naphthalene rings were designed, synthesized and fully characterized. The crystal structure analysis of the designed molecules revealed that the C-H-based interactions especially C-H⋯π have a significant role in the stabilization of crystal architectures. Regarding the molecular structure of naphthalene rings, one can find that bond lengths are divided into two groups (shorter and longer) so that relative localization is likely to occur in this system. Since π-electron localization in aromatic rings has been previously introduced as responsible for stronger π-stacking, this issue was investigated through C-H⋯π interaction in this study. Cambridge Structural Database (CSD) analysis was performed by exploration of suitable geometries for C-H⋯πc and C-H⋯πe in naphthalene and phenol systems (πc and πe are the centre and edge of the aromatic rings, respectively). The tendency factor (TF) of the C-H moiety toward ring bonds as a new CSD-based criterion was used to detect some of the resonance forms in aromatic rings. The results indicated that C-H⋯πe is a ubiquitous interaction which can be employed as an experimental probe for the detection of π-localization in naphthalene rings. Systematic experimental studies, structural evidence and computational results on the title compounds confirmed the relative π-electron localization, as well.

Original languageEnglish (US)
Pages (from-to)6432-6445
Number of pages14
Issue number42
Publication statusPublished - Jan 1 2019


ASJC Scopus subject areas

  • Chemistry(all)
  • Materials Science(all)
  • Condensed Matter Physics

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