From Clusters to Ionic Complexes:  Structurally Characterized Thallium Titanium Double Alkoxides

Abstract: A series of sterically varied titanium alkoxides [[Ti(OR)(4)](n)(), n = 4, OR = OCH(2)CH(3) (OEt); n = 1, OCH(CH(3))(2) (OPr(i)); n = 2, OCH(2)C(CH(3))(3) (ONep); n = 1, OC(6)H(3)(CH(3))(2)-2,6 (DMP)] were reacted with a series of thallium alkoxides [[Tl(OR)](x) (x = 4, OR = OEt, ONep; n = infinity, DMP)]. The resultant products of the [Tl(mu(3)-OEt)](4)-modified [Ti(OR)(4)](n)() (OR = OEt, OPr(i), ONep) were found by X-ray analysis to be Tl(4)Ti(2)(mu-O)(mu(3)-OEt)(8)(OEt)(2) (1), Tl(4)Ti(2)(mu-O)(mu(3)-OPr(i… Show more

“…Particles below and above this range are also present to some extent (see Fig.7). The hydrolysis study of related tin alkoxides Sn(OR) 2 (R = OMe, OCHMe 2 , OSiMe 3 ) to Sn 6 O 4 (OR) 4 and powder diffraction studies support our assumption that Sn 6 O 4 (OH) 4 particles are the only hydrolysis product observed in the DLS experiment [39,40]. solution to a relative laboratory humidity of 65%.…”

Hydrolysis of bis(dimethylamido)tin to tin (II) oxyhydroxide and its selective transformation into tin (II) or tin (IV) oxide

“…Particles below and above this range are also present to some extent (see Fig.7). The hydrolysis study of related tin alkoxides Sn(OR) 2 (R = OMe, OCHMe 2 , OSiMe 3 ) to Sn 6 O 4 (OR) 4 and powder diffraction studies support our assumption that Sn 6 O 4 (OH) 4 particles are the only hydrolysis product observed in the DLS experiment [39,40]. solution to a relative laboratory humidity of 65%.…”

Hydrolysis of bis(dimethylamido)tin to tin (II) oxyhydroxide and its selective transformation into tin (II) or tin (IV) oxide

“…hydrolysis and condensation in sol-gel processes) have long been a focus in this context. Control of reaction rates, and associated structural evolution, in these complex reaction mixtures has been typically achieved via molecular (ligand) design and the management of chemical, thermal, or optical environmental conditions [1][2][3][4][5]. In general, these strategies have relied on chemical catalysis of these reaction processes to establish the primary intermolecular bond topology early in nanostructure formation.…”

Photo-initiation of intermolecular bonding and oxide deposition in Ti-based alkoxide solutions

“…Collectively, these data imply a dynamic structure in solution in which the coordination number at tin is at least 3. The solution dynamics are most likely to involve both a mixture of monomers and µ-OR bridged dimers/oligomers, along with dynamic coordination of tin by the donor Me 2 45 The authors of this latter paper interpreted these data simply in terms of disruption of the solid-state structure on dissolution. The divalent nature of the tin in 1 is confirmed by the Mössbauer isomer shift of 2.60 mm s −1 .…”

Tin(II) aminoalkoxides and heterobimetallic derivatives: the structures of Sn₆(O)₄(dmae)₄, Sn₆(O)₄(OEt)₄ and [Sn(dmae)₂Cd(acac)₂]₂