Janet E. Kirsch scite author profile

Out-of-center "primary" electronic distortions are inherent to the oxide fluoride anions of the early d0 transition metals. In the [NbOF5]2- anion, the Nb5+ moves from the center of the octahedron toward the oxide ligand to form a short Nb=O bond and long trans Nb-F bond. The combined results of single-crystal X-ray diffraction and electronic structure calculations indicate that the primary distortion of the [NbOF5]2- anion is affected by the coordination environment that is created by the three-dimensional extended structure. The formation of bonds between an M(L)4(2+) (M = Cd2+, Cu2+; L = 3-aminopyridine, 4-aminopyridine) cation and the oxide and/or trans-fluoride ligands of the [NbOF5]2- anion weakens the pi component of the Nb=O bond. At the same time, hydrogen bond interactions between the equatorial fluorides and the aminopyridine groups both lengthen the equatorial Nb-F bonds and can further reduce the symmetry of the [NbOF5]2- anion. These combined three-dimensional bond network interactions that serve to lengthen the Nb=O bond and thereby decrease the primary distortion of the [NbOF5]2- anion are illustrated in the structures of three new niobium oxide fluoride phases, [4-apyH]2[Cu(4-apy)4(NbOF5)2] (4-apy = 4-aminopyridine), Cd(3-apy)4NbOF5 (3-apy = 3-aminopyridine), and Cu(3-apy)4NbOF5, that were synthesized and characterized using X-ray diffraction. Crystal data for [4-apyH]2[Cu(4-apy)4(NbOF5)2]: tetragonal, space group /4(1)/ acd (No. 142), with a = 20.8745(8) A, c = 17.2929(9) A, and Z= 8. Cd(3-apy)4NbOF5: tetragonal, space group P4(3) (No. 78), with a = 8.4034(4) A, c = 34.933(3) A, and Z = 4. Cu(3-apy)4NbOF5: monoclinic, space group P2(1)/n (No. 14), with a = 8.822(1) A, b = 16.385(3) A, c = 8.902(1) A, beta = 109.270(3) degrees, and Z = 2.

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Phosphonate Lipid Tubules. 1

Thomas

Corcoran

Cotant

et al. 1998

J. Am. Chem. Soc.

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We describe a new chiral tubule-forming lipid in which the C-O-P headgroup/glycerol backbone linkage of the archetypal tubule-forming phospholipid, 1,2-bis(10,12-tricosadiynoyl)-sn-glycero-3-phosphocholine, DC(8,9)PC, is replaced by a C-C-P linkage. Tubule formation from this phosphonate analogue occurs under the same mild conditions as with DC(8,9)PC and produces identical yields, but the phosphonate tubules have cylindrical diameters twice that of DC(8,9)PC tubules. Small-angle X-ray scattering, atomicforce, and optical microscopy reveal the new tubules to consist of fewer coaxially nested cylindrical lamellae than DC(8,9)PC tubules; accordingly, the phosphonate tubules are more fragile. In addition, a small portion of the phosphonate precipitate is in the form of stable open helices, and enantiomerically pure preparations of the new molecule contain significant numbers of helices possessing the unexpected sense of handedness.

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Phosphonate Lipid Tubules II

et al. 2002

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We describe a new chiral tubule-forming lipid in which the C-O-P phosphoryl linkage of the archetypal tubule-forming molecule, 1,2-bis(10,12-tricosadiynoyl)-sn-glycero-3-phosphocholine, "DC(8,9)PC", is replaced by a C-P linkage. Tubule formation with this phosphonate analogue proceeds under the same mild conditions as with DC(8,9)PC and produces similar yields, but synchrotron small-angle X-ray scattering, atomic force microscopy, and optical microscopy show the new tubules to have diameters 1.94 times as great, to be significantly shorter, and to be thinner-walled. A significant portion of the enantiomerically pure chiral phosphonate precipitate is in the form of stable open helices, and these helices are divided almost evenly between left- and right-handed members.

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Janet E. Kirsch

Examining the Out-of-Center Distortion in the [NbOF₅]²^- Anion

Phosphonate Lipid Tubules. 1

Phosphonate Lipid Tubules II

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Janet E. Kirsch

Examining the Out-of-Center Distortion in the [NbOF5]2- Anion

Phosphonate Lipid Tubules. 1

Phosphonate Lipid Tubules II

Contact Info

Product

Resources

About

Examining the Out-of-Center Distortion in the [NbOF₅]²^- Anion