New Ce(iii) sulfate–tartrate-based MOFs: an insight into the controllable self-assembly of acentric metal–organic complexes

Abstract

Hydrothermal reactions yielded five new Ce(III) sulfate–tartrate-based MOFs, namely, α-[Ce₂(H₂O)₂(L-tar)₂(SO₄)]·4H₂O 1, α-[Ce₂(H₂O)₂(D-tar)₂(SO₄)]·4H₂O 2, β-[Ce₂(H₂O)₂(L-tar)₂(SO₄)]·4H₂O 3, β-[Ce₂(H₂O)₂(D-tar)₂(SO₄)]·4H₂O 4 and Ce₂(H₂O)₃(L/D-tar)(SO₄)₂5. The two α-enantiomorphs (1, 2) crystallize in the polar monoclinic C2 space group, and the two β-enantiomorphs (3, 4) crystallize in the non-polar orthorhombic space group P2₁2₁2, while 5 crystallizes in the monoclinic space group P2₁/c. The acentric MOFs 1–4 belong to the ³_∞{²_∞[M₂(H₂O)_x(tar)^b₂]A^p}·nH₂O family (hereby A = SO₄²⁻), and the [Ce₂(tar)₂] dimeric motifs rig up the 2D positively charged ²_∞[Ce₂(H₂O)₂(tar)₂]²⁺ networks of a four-connected uninodal (4²·6⁴) topology, which are further pillared by sulfate anions into the ³_∞{²_∞[Ce₂(H₂O)₂(tar)₂](SO₄)} framework of the (4,5)-connected dinodal (4²·6⁴)(4²·6⁷·8) topology with the lattice water molecules in the tunnels. Within 5, the [Ce(tar)] motifs rig up the 2D ²_∞[Ce₂(H₂O)₃(tar)]⁴⁺ patterns, which were stabilized by sulfate anions to form a 2D ²_∞[Ce₂(H₂O)₃(tar)(SO₄)]²⁺ layer of a (3,4)-connected bi-nodal (6³)(6⁶) topology, and the 2D layers are pillared by additional sulfate anions into the 3D ³_∞{²_∞[Ce₂(H₂O)₃(L/D-tar)(SO₄)]SO₄} framework of an unprecedented (3,4,5,6)-connected penta-nodal (4·6²)(4·6⁵)(4·6⁷·8²)(4⁴·6²)(4⁵·6⁸·8²) topology. The results suggest that the acentricity of the ³_∞{²_∞[M₂(H₂O)_x(tar)^b₂]A^p}·nH₂O MOF is crucially determined by the tartrate forms incorporated in the 2D ²_∞[M₂(H₂O)_x(tar)^b₂] sheet, and the distances between the 2D sheets are tunable by the judicious selection of the pillaring auxiliary ligands. The polar α-MOFs (1, 2) display a promising ferroelectricity with a remnant polarization (P_r) of ca. 0.158 μC cm⁻² for 1 (ca. 0.323 μC cm⁻² for 2), a coercive field (E_c) of ca. 27.05 kV cm⁻¹ for 1 (ca. 42.00 kV cm⁻¹ for 2), and saturation of the spontaneous polarization (P_s) occurs at ca. 0.335 μC cm⁻² for 1 (ca. 0.400 μC cm⁻² for 2). The magnetic behaviors of the title compounds obey a modified Curie–Weiss law χ = χ_TIP + C/(T − θ) with χ_TIP = 200–230 × 10⁻⁶ cm³ mol⁻¹, C = 0.228–0.329 cm³ K mol⁻¹, θ = −0.03– −0.06 K, and the decrease of χ_MT with the lowering temperature and the negative value of θ may be due to the populations of the Stark levels and/or the possible antiferromagnetic interactions between the Ce³⁺ ions. Furthermore, the title complexes were subjected to microelemental analyses, IR spectroscopic measurements and thermal analyses, and the results are also discussed.