Effect of Coordination Environment in Grafted Single-Site Ti-SiO2 Olefin Epoxidation Catalysis

Abstract: The effect of calixarene ligand symmetry, as dictated by lower-rim substitution pattern, on the coordination to a Ti(IV) cation is assessed in solution and when grafted on SiO 2 , and its effect on epoxidation catalysis by Ti(IV)-calixarene grafted on SiO 2 is investigated. C 2v symmetric Ti-tert-butylcalix[4]arene complexes that are 1,3-alkyl disubstituted at the lower rim (di-R-Ti) are compared to previously reported grafted C s symmetric complexes, which are singly substituted at the lower rim (mono-R-Ti). … Show more

“…To understand the molecularstructural effects controlling these differences in reactivity, we first consider whether changes to inner-sphere ligands of Ti IV active centers exist across cTi/X catalysts. UV−visible calix(O)−Ti LMCT edge-energies, known to be sensitive to the number of covalent connections between calix [4]arene oxygens and grafted Ti IV cations, 93 are shown in Table 1. Their uniform value of 2.28 ± 0.02 eV for all cTi/X catalysts is indicative of identical connectivity across all Ti IV surface complexes, consisting of a tridentate connection to phenolic structural units of the calix [4]arene, and single-point connectivity to the support, 15 as depicted in Figure 1.…”

Dynamic Reorganization and Confinement of Ti^IV Active Sites Controls Olefin Epoxidation Catalysis on Two-Dimensional Zeotypes

“…To understand the molecularstructural effects controlling these differences in reactivity, we first consider whether changes to inner-sphere ligands of Ti IV active centers exist across cTi/X catalysts. UV−visible calix(O)−Ti LMCT edge-energies, known to be sensitive to the number of covalent connections between calix [4]arene oxygens and grafted Ti IV cations, 93 are shown in Table 1. Their uniform value of 2.28 ± 0.02 eV for all cTi/X catalysts is indicative of identical connectivity across all Ti IV surface complexes, consisting of a tridentate connection to phenolic structural units of the calix [4]arene, and single-point connectivity to the support, 15 as depicted in Figure 1.…”

Dynamic Reorganization and Confinement of Ti^IV Active Sites Controls Olefin Epoxidation Catalysis on Two-Dimensional Zeotypes

“…[36] Such aconformational change can be expected, given the well-known conformational flexibility of the calix- [4]arene scaffold. [34,42,46,47] Experimental observations by XAS in Figure 1and Table 1determined that Ti-O distances in cTi/ 2 are lengthened (indicated by alarger value of R)and exhibit stronger distortion (as indicated by alarger value of s 2 )from an ideal tetrahedron than in all other cTi/X materials (R = 1.86 , s 2 = 5 10 À3 2 in cTi/2 versus R = 1.82 , s 2 = 3 10 À3 2 ). Consistent with this,e lectronic structure calculations show lengthened and less symmetric Ti À Obond lengths in cTi-cone/I (hd Ti-O i = 1.83 AE 0.04 )r elative to those modeled without partial confinement in pore mouths,incTi-cone (hd Ti-O i = 1.82 AE 0.01 )( section 2.4, Figure 3).…”

“…UV-visible spectra of all materials (Figure S5) exhibit broad absorption features at 290-500 nm, arising from calix- [4]arene(O)-Ti IV ligand-to-metal charge transfer (LMCT), [27] consistent with calix [4]arene coordination to Ti IV after grafting. Themeasured edge energies associated with these LMCT bands are known to be sensitive to the number of covalent connections between calix [4]arene oxygens and grafted Ti IV cations, [34] and their values are shown in Table 1. Theobserved uniform value of 2.29 AE 0.03 eV for all cTi/X materials is indicative of identical connectivity within grafted cTi centers across all materials.This result confirms uniform chelation of Ti IV centers by calix [4]arene macrocycles,inamanner that is irrespective of the support.…”

“…To further investigate the conformation of cTi,w e isotopically enriched the lower-rim methoxy position of cTi with 13 C( red in Scheme 1) and characterized all samples via 13 C{ 1 H} CPMAS NMR spectroscopy.O ur approach involves using d( 13 C) of this substituent as as ensitive reporter of the dative interaction distance between the methoxy oxygen and Ti IV center (red dashed line in Scheme 1), [27] because we expect this distance to be affected by changes in the calix- [4]arene conformation. [34,42,43] Figure 2s hows the 13 C{ 1 H} CPMAS NMR spectra, with resonance chemical shifts summarized in Table 1. All cTi/X samples except cTi/2 exhibit alower-rim methoxy-substituent resonance at 64.2 AE 0.2 ppm, in reasonable agreement with values observed for analogous complexes in solution.…”

Characterization of a Molecule Partially Confined at the Pore Mouth of a Zeotype

“…Even lower conversion (11%) was observed under air when employing the same reaction conditions. Furthermore, complex 66 was supported on silica by following a slightly modified reported procedure [41], and tested in the ROP of all monomers previously investigated (Table 22). The catalyst efficiently promoted the polymerization of ε-CL, and complete conversion was observed after 24 h at 130 • C, regardless of the use of benzyl alcohol (Table 22, entries 1 and 2).…”

Use of Titanium Complexes Bearing Diphenolate or Calix[n]arene Ligands in α-Olefin Polymerization and the ROP of Cyclic Esters