Thiacalix[4]arene-Based Three-Dimensional Coordination Polymers Incorporating Neutral Bridging Coligands

Employing a solvothermal procedure and use of <i>p-tert-</i>butyl-thiacalix[4]arene tetraacetic acid (H₄<b>TCTA</b>) and the nitrate salts of cobalt(II) and cadmium(II) have enabled isolation of four three-dimensional metal–organic frameworks (<b>1</b>–<b>4</b>) in the presence of three different types of neutral bridging coligands. In one case, <b>3</b>, a mixed metal ion system (Co²⁺/Na⁺) was obtained. First, the reaction of H₄<b>TCTA</b> with Co(NO₃)₂·6H₂O together with the linear bridging coligand BPY (4,4′-bipyridine) afforded a mixture of two 3D frameworks of types [Co₂(<b>TCTA</b>)(BPY)]_<i>n</i> (<b>1</b>) and [Co₂(<b>TCTA</b>)(BPY)₂(H₂O)₄]_<i>n</i> (<b>2</b>). Compound <b>1</b> features a paddle-wheel unit incorporating Co²⁺ pairs, Co₂(carboxylate)₄, involving four different <b>TCTA</b> units in two dimensions and BPY pillaring in the third. In <b>2</b>, 2D sheets consisting of BPY–Co repeating chains stacked in an A-B-A-B pattern are pillared by <b>TCTA</b> to yield the 3D motif. In the second reaction system, the use of H₄<b>TCTA</b> with Co(NO₃)₂·6H₂O in the presence of the bent bridging coligand BPPA (<i>N</i>,<i>N</i>′-bis(pyridine-4-yl)-isophthalamine) and NaOH afforded {[Co₃Na₂(<b>TCTA</b>)₂(BPPA)₂(H₂O)₂]·4DMF·4H₂O}_<i>n</i> (<b>3</b>). In <b>3</b>, <b>TCTA</b> yields a honeycomb-shaped 2D sheet via Co–O(carboxylate) bonds; these sheets are linked by Co–O(carboxylate) and Co–(BPPA)–Co bridging bonds to afford the 3D motif. In this case, the Na atom locates inside the calix cavity in a distorted square planar coordination environment and is stabilized by η³-type cation···π interactions. In the third system, the use of H₄<b>TCTA</b> with Cd(NO₃)₂·6H₂O in the presence of the flexible bridging coligand diaminohexane (DAH) gave {[Cd₂(<b>TCTA</b>)(DAH)(DMF)₂]·2DMF·2H₂O}_<i>n</i> (<b>4</b>), which features an unusual PtS-like 3D structure. The results confirm that the nature of the extended 3D structures is influenced by the bridging coordination behavior of the coligands. In all these structures, the <b>TCTA</b> ligands adopt a 1,3-alternate conformation. Thermal gravimetric analysis performed on the present MOFs revealed that three of these compounds have high thermal stability (∼300 °C).