Novel Organic-Soluble Molecular Titanophosphonates with Cage Structures Comparable to Titanium-Containing Silicates

Abstract: Reactions of Cp*TiMe 3 (Cp* ) C 5 Me 5 ) with methyl-, phenyl-and tert-butylphosphonic acids (1), Ph (2)) and [(Cp*Ti) 3 (t-BuPO 3 ) 2 {t-BuPO 2 (OH)}(µ-O) 2 ] (3), which are freely soluble in organic solvents. Alternatively, the reaction between Cp*TiCl 3 and methylphosphonic acid was also found to produce 1. The titanophosphonates mentioned are the first examples of organic-soluble molecular transition metal phosphonate cages.

“…Interpretation of the 1 H NMR spectroscopic data was limited due to the high number of chemically similar groups. 2 (μ 2 -OiPr) 6 (OiPr) 8 (O 3 P-allyl) 6 The integrals fitted well, but the multiplicities and signal overlap led to very broad and indistinct signals. The 13 C NMR spectrum also shows five doublets for the allyl groups, but signal overlap again made it difficult to elucidate the symmetry of 2.…”

“…When TMS-allylPP was treated with Ti(OiPr) 4 in a 1:2 ratio in isopropyl alcohol, the cluster [Ti 8 (μ 3 -O) 2 (μ 2 -OiPr) 6 -(OiPr) 8 (O 3 P-allyl) 6 Cluster 2 was synthesized several times, and either triclinic (space group P1, denoted as 2) or monoclinic crystals (space group P2 1 /n, denoted as 2b) were obtained. The molecular structures are the same in both cases, and the bond lengths and angles are similar (only the values for 2 are given in Figure 2), but the packing of the clusters is different.…”

“…The reaction of TMS-XylPP and Ti(OiPr) 4 led to the formation of [Ti 4 O(OiPr) 8 (O 3 P-xyl) 3 (iPrOH)] (6; Figure 4). The structure is analogous to that of 1, the neutral ligand at the "capping" titanium atom being isopropyl alcohol (instead of dmso as in 1).…”

“…For comparison, Ti(OiPr) 4 was also treated with allylphosphonic acid to yield a Ti 4 cluster. The reaction of Ti(OiPr) 4 with the bulky bis(trimethylsilyl) 2-naphthylmethyphosphonate did not yield an oxo cluster but instead the phosphonate-substituted titanium alkoxide Ti 4 (OiPr) 8 (O 3 PCH 2 naphthyl) 4 .…”

“…A few phosphonate-and phosphinate-substituted oxo clusters have been obtained by the reaction of titanium alkoxides with some phosphonic or phosphinic acids. [5][6][7] The formation of oxo groups in the clusters was attributed to residual moisture in the solvents or phosphonic acids [5][6][7][8] rather than to an esterification reaction. The compounds obtained by reaction with phosphinates had similar structures to comparable carboxylatesubstituted derivatives.…”

Influence of the Phosphonate Ligand on the Structure of Phosphonate‐Substituted Titanium Oxo Clusters

“…Interpretation of the 1 H NMR spectroscopic data was limited due to the high number of chemically similar groups. 2 (μ 2 -OiPr) 6 (OiPr) 8 (O 3 P-allyl) 6 The integrals fitted well, but the multiplicities and signal overlap led to very broad and indistinct signals. The 13 C NMR spectrum also shows five doublets for the allyl groups, but signal overlap again made it difficult to elucidate the symmetry of 2.…”

“…When TMS-allylPP was treated with Ti(OiPr) 4 in a 1:2 ratio in isopropyl alcohol, the cluster [Ti 8 (μ 3 -O) 2 (μ 2 -OiPr) 6 -(OiPr) 8 (O 3 P-allyl) 6 Cluster 2 was synthesized several times, and either triclinic (space group P1, denoted as 2) or monoclinic crystals (space group P2 1 /n, denoted as 2b) were obtained. The molecular structures are the same in both cases, and the bond lengths and angles are similar (only the values for 2 are given in Figure 2), but the packing of the clusters is different.…”

“…The reaction of TMS-XylPP and Ti(OiPr) 4 led to the formation of [Ti 4 O(OiPr) 8 (O 3 P-xyl) 3 (iPrOH)] (6; Figure 4). The structure is analogous to that of 1, the neutral ligand at the "capping" titanium atom being isopropyl alcohol (instead of dmso as in 1).…”

“…For comparison, Ti(OiPr) 4 was also treated with allylphosphonic acid to yield a Ti 4 cluster. The reaction of Ti(OiPr) 4 with the bulky bis(trimethylsilyl) 2-naphthylmethyphosphonate did not yield an oxo cluster but instead the phosphonate-substituted titanium alkoxide Ti 4 (OiPr) 8 (O 3 PCH 2 naphthyl) 4 .…”

“…A few phosphonate-and phosphinate-substituted oxo clusters have been obtained by the reaction of titanium alkoxides with some phosphonic or phosphinic acids. [5][6][7] The formation of oxo groups in the clusters was attributed to residual moisture in the solvents or phosphonic acids [5][6][7][8] rather than to an esterification reaction. The compounds obtained by reaction with phosphinates had similar structures to comparable carboxylatesubstituted derivatives.…”

Influence of the Phosphonate Ligand on the Structure of Phosphonate‐Substituted Titanium Oxo Clusters

Controlling the Structure of Manganese(II) Phosphates by the Choice and Ratio of Organophosphate and Auxiliary Ligands

Noncovalent Synthesis of Hierarchical Zinc Phosphates from a Single Zn₄O₁₂P₄ Double‐Four‐Ring Building Block: Dimensionality Control through the Choice of Auxiliary Ligands