Photochromic Hybrid Containing In Situ-Generated Benzyl Viologen and Novel Trinuclear [Bi3Cl14]5–: Improved Photoresponsive Behavior by the π···π Interactions and Size Effect of Inorganic Oligomer

Two new member of (V)(2n+2)/2[Bi2nCl8n+2] series hybrids, (BzV)2[Bi2Cl10] (1) and (BzV)5[Bi3Cl14]2·(C6H5CH2)2O (2) (where BzV2+ = N,N′-dibenzyl-4,4′-bipyridinium and (C6H5CH2)2O = dibenzyl ether) have been obtained, and compound 2 contains an unprecedented discrete trimer [Bi3Cl14]5– counterion. The novel in situ-synthesized symmetric viologen cation with aromatic groups on both sides of 4,4′-bipy would provide more opportunities to create π···π interactions to optimize the photochromic property of the hybrid, and different bismuthated-halide oligomers enable us to discuss the size effect in this series of compounds. Both 1 and 2 are photochromic, and their photoresponsive rate is faster than that of reported viologen–metal halide hybrids. Experimental and theoretical data illustrated that the size of the inorganic oligomer can significantly influence the photoresponsive rate of the viologen dication, and the π···π interaction behaves as not only a powerful factor to stabilize the viologen monocation radical but also the second electron-transfer pathway, from a π-conjugated substituent to a viologen cation, for the photochromic process.