Self-assembly of conducting cocrystals via iodine ... π(Cp) interactions

Conducting crystals of alternating ferrocene and diiodoacetylene units assembled into supramolecular 1-D chains via I ... pi(Cp) halogen bonds were prepared and structurally characterized. Their structure and conductivity were compared with the ferrocene cocrystals with phenyliodoacetylene (C6H5C2I) and 1,4-di(ethynyliodo) phenylene. Electrical conductivity measurements of the ferrocene-based cocrystals revealed comparatively high electron-hole type conductivity in the ferrocene (FcH)-diiodoacetylene (C2I2) pair, a 3-order decrease in combination with the 1,4-di(ethynyliodo) phenylene linker, and it is virtually extinguished with the monotopic 1,2-phenyliodoacetylene. The increased electric conductivity of compound 1 is rationalized in terms of a weak charge transfer through the I ... pi Cp halogen bonds in the [Cp-Fe-Cp ... I-C C-I ...](n) polymeric chains.