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Rare Guest-Induced Electrical Conductivity of Zn-Porphyrin Metallacage Inclusion Complexes Featuring π-Donor/Acceptor/Donor Stacks.

Paola A BenavidesMonica A GordilloEvan ThibodeauxAshok YadavEvan JohnsonRakesh SachdevaSourav Saha
Published in: ACS applied materials & interfaces (2023)
Charge-transfer (CT) interactions between co-facially aligned π-donor/acceptor (π-D/A) arrays engender unique optical and electronic properties that could benefit (supra)molecular electronics and energy technologies. Herein, we demonstrate that a tetragonal prismatic metal-organic cage (MOC1 8+ ) having two parallel π-donor tetrakis(4-carboxyphenyl)-Zn-porphyrin (ZnTCPP) faces selectively intercalate planar π-acceptor guests, such as hexaazatriphenylene hexacarbonitrile (HATHCN), hexacyanotriphenylene (HCTP), and napthanelediimide (NDI) derivatives, forming 1:1 πA@MOC1 8+ inclusion complexes featuring supramolecular π-D/A/D triads. The π-acidity of intercalated π-acceptors (HATHCN ≫ HCTP ≈ NDIs) dictated the nature and strength of their interactions with the ZnTCPP faces, which in turn influenced the binding affinities ( K a ) and optical and electronic properties of corresponding πA@MOC1 8+ inclusion complexes. Owing to its strongest CT interaction with ZnTCPP faces, the most π-acidic HATHCN guest enjoyed the largest K a (5 × 10 6 M -1 ), competitively displaced weaker π-acceptors from the MOC1 8+ cavity, and generated the highest electrical conductivity (2.1 × 10 -6 S/m) among the πA@MOC1 8+ inclusion complexes. This work demonstrates a unique through-space charge transport capability of πA@MOC1 8+ inclusion complexes featuring supramolecular π-D/A/D triads, which generated tunable electrical conductivity, which is a rare but much coveted electronic property of such supramolecular assemblies that could further expand their utility in future technologies.
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