Crystallization of zinc azole complex incorporated Strandberg-type cluster-based solids: Synthesis, structure and photoluminescence studies

Two new zinc azole complexes incorporated Strandberg-type cluster-based solids, namely (Hpz)6Zn(pz)4(H2O)2[Zn(pz)2P2Mo5O232]·8H2O (1) and (Himi)4Zn(imi)3P2Mo5O23·7H2O (2) were crystallized using isomeric azole ligands, i.e., pyrazole (pz) and imidazole (imi), respectively. While solid 1 crystallized in triclinic system with space group P-1 with cell parameters a = 9.5647(15), b = 12.558(2), c = 20.340(3) Å, α = 75.907(7), β = 84.727(6), γ = 87.525(7)°, Z = 1; 2 crystallized in orthorhombic system with space group P212121 having cell parameters a = 12.048(3), b = 19.561(5), c = 20.732(5) Å, Z = 4. Both pyrazole and imidazole can form a complex with zinc centres to form an extended solid in 1 and a derivatized Strandberg-type cluster in 2. Interestingly, 1 is a new supramolecular isomer of previously reported solid viz., (pz)[Zn(pz)33P2Mo5O23]·2H2O and 2 is the only example wherein a zinc imidazole complex has derivatized a Strandberg-type cluster. Detailed structure analysis of 1 and 2 was carried out, and the role of tectons in dictating the self-assembly of these solids was evaluated. In addition, a solid-state photoluminescence study was carried out for 1 and 2 at room temperature. Two zinc azole complexes incorporated Strandberg-type cluster-based solids and have been crystallized. While 1 is a new supramolecular isomer of (pz)[Zn(pz)33P2Mo5O23]·2H2O; 2 is the only example wherein a zinc imidazole complex has derivatized a Strandberg-type cluster. Apart from detailed structural analysis, solid-state photoluminescence of solids has also been investigated.