Coordination Polymers from Calixarene-Like [Cu₂(Dicarboxylate)₂]₄ Building Blocks:  Structural Diversity via Atropisomerism

The self-assembly of [Cu₂(dicarboxylate)₂]₄ nanoscale secondary building units (nSBUs) into coordination polymers can occur in such a way that a range of calix-like atropisomers can exist. Eight compounds have been prepared and crystallographically characterized via reaction between Cu(NO₃)₂ and angular dicarboxylate ligands:  {[Cu₂(bdc)₂(py)₂]₄•guest}_n (1a), {[Cu₂(bdc)₂(py)₂]₄•4nitrobenzene•2EtOH}_n (1b), {[Cu₂(bdc)₂(4-pic)₂]₄•4o-dichlorobenzene}_n (2), {[Cu₂(5-OEt-bdc)₂(py)₂]₄•8H₂O}_n (3), {[Cu₂(5-OPr-bdc)₂(py)₂]₄•guest }_n (4), {[Cu₂(pdc)₂(py)₂]₄•4MeOH}_n (5), {[Cu₂(pdc)₂(4-pic)₂]₄•4H₂O}_n (6), and {[Cu₂(tdc)₂(MeOH)₂]₄•4naphthalene•8MeOH}_n (7). The following atropisomers, all of which have also been observed in calixarenes, were observed:  (a) cone (1a, 3, and 4); (b) partial cone (1b); (c) 1,2-alternate (2 and 5−7); and (d) 1,3-alternate (1a, 3, and 4). The similarities and differences between the crystal structures of 1−7 are detailed herein.