Pathway-Dependent Post-assembly Modification of an Anthracene-Edged M$^{II}$$_4L_6$ Tetrahedron

Abstract

Fe$^{II}$$4L_6$ tetrahedral cage $\textbf{1}$ undergoes post-assembly modification (PAM) via a Diels-Alder cycloaddition of the anthracene panels of the cage with tetracyanoethylene (TCNE). The modified cage $\textbf{2}$ possesses an enclosed cavity suitable for encapsulation of the fullerene C${60}$, whereas original cage $\textbf{1}$ forms a unique covalent adduct through a Diels-Alder cycloaddition of three of its anthracene ligands with C${60}$. This adduct undergoes further PAM via reaction of the remaining three ligands with TCNE, enabling the isolation of two distinct products depending on the order of addition of C${60}$ and TCNE. Modified cage $\textbf{2}$ was also able to bind an anionic guest, [Co(C$_2$B$9$H${11}$)$_2$]$^{-}$, which was not encapsulated by the original cage, demonstrating the potential of PAM for tuning the binding properties of supramolecular hosts.