We synthesized three new dyads composed of a Zn porphyrin and fac-Re(bpy)(CO)(3)Br units, and investigated their photophysical properties and catalytic activity in CO2 reduction. Among the three dyads, ZnP-5Bpy=Re-Br showed the highest durability and reaction efficiency, reaching a reaction quantum yield of 24%. The significant activity in ZnP-5Bpy=Re-Br is attributed to the absence of electron accumulation on the Zn porphyrin, facilitated by dual interactions of triethanolamine (TEOA) with the Re and Zn ions in the dyad. The catalytic activities and RTP properties are considered independent but greatly influenced by the connecting positions on the bpy ligand in ZnP-nBpy=Re-Br.
We synthesized three new dyads composed of a Zn porphyrin and fac-Re(bpy)(CO)(3)Br (bpy = 2,2'- bipyridine) units, ZnP-nBpy=Re-Br (n = 4, 5, and 6), in which the porphyrin is directly connected at the meso-position through the 4-, 5-, or 6-position of the bpy. We investigated the relationships between the connecting positions and the photophysical properties as well as catalytic activity in the CO2 reduction reaction. The dyad connected through the 6-position, ZnP-6Bpy=Re-Br, showed obvious phosphorescence with a lifetime of 280 ms at room temperature, in N,N-dimethylacetamide (DMA), whereas the other two dyads showed almost no phosphorescence under the same conditions. The photocatalytic CO2 reduction reactions in DMA using 1,3-dimethyl-2-phenyl-2,3-dihydro-1H-benzo[d] imidazole as the electron donor and the three dyads ZnP-nBpy=Re-Br selectively produced CO with similar initial rates, but the durabilities were low. The addition of triethanolamine (TEOA) suppressed the decomposition of dyads, improving their durabilities and reaction efficiencies. In particular, ZnP-5Bpy= Re(B)r was remarkably improved-it gave the highest durability and reaction efficiency among the three dyads; the reaction quantum yield reached 24%. The reason for this significant activity is no accumulation of electrons on the Zn porphyrin in ZnP-5Bpy=Re-Br, which would be caused by dual interactions of TEOA with the Re and Zn ions in the dyad. As the highest catalytic activity was observed in ZnP-5Bpy=Re-Br among the three dyads, which had no room-temperature phosphorescence (RTP), the catalytic activities and RTP properties are considered independent, but they are greatly influenced by the connecting positions on the bpy ligand in ZnP-nBpy=Re-Br.
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