X-ray crystallographic studies of five group III compounds

Rettig, Steven J.

January 1974

The structures of five compounds of group III elements have been determined by single crystal X-ray diffraction, three boron compounds, one aluminum compound, and one gallium compound: 1» B,B-diphenylboroxazolidine (2-atninoethyl diphenyl-borinate) , C14H16BNO. 2. B ,B-bis (p-f luorophenyl) boroxazolidine , C14H14BF2NO. 3. 4 ,4-dimethyl-2,2-diphenyl-1,3-dioxa-4-azonia-2-bor-anatacyclopentane, C15H18gBNO2. 4. N-methyldiethanolaminogallane dimer, C10H24Ga2N2O4 5. (pentahaptocyclopentadienyl) hydridomolybdenum-μ-di-me th ylaluminum-μ-[ methylaluminum-di- iju.-pentaha_p_to-(monohapto)cyclopentadienyl)dimethylaluminum] (pentaha]3-tocyclopentadienyl)hydridomolybdenum, C25H35Al3Mo2. Crystals of B,B-diphenylboroxazolidine are monoclinic, a = 13.840(1), b = 8.9169(5), c = 10.170(1) A, = 98.85 (1)° , Z = 4, space group P21/n. The structure was determined by direct methods, and refined by electron-density and full-matrix least-squares procedures to R 0.041 for 1458 reflexions. The five-membered boroxazolidine ring is in the half-chair conformation. Bond angles in the ring range from 99.7 for OBN to 110.1° for BOC. Bond lengths are as follows: mean B-C, 1.616(2), B-H, 1 .653 (3), B-0, 1.484(3), C-N, 1 .485 (3), C-O, 1.413(3), mean C-C (aromatic) , 1 .392(11 ), and C-C, 1.505(4) A. The structure consists of discrete molecules linked by 0...H-N hydrogen bonds (2,874(2) A) to form continuous spirals about the 21 axes. Crystals of B,B-bis (p-fluorophenyl)boroxazolidine are orthorhomfcic, a = 13.442 (4), b = 10.214(3), c = 9. 823 (2) ft, Z = 4, space group P212121. The structure was solved by direct methods, and refined by electron-density and full-matrix least-squares procedures to R 0.047 for 1234 reflexions. The five-membered boroxazolidine ring is in a distorted half-chair conformation , Bond angles in the ring range from 99.9(2) for OBH to 108.2(2)° for BOC. Bond lengths are: mean B-C, 1.621:, (3), B-N, 1.652 (4), B-O, 1.471(4), C-N, 1.491(4), C-0, 1.4 18(4), mean C-F, 1.371(1), mean C-C (aromatic) , 1 .390 (13), and C (sp3) -C (sp3) , 1.494 (6) A. The structure consists of discrete molecules each linked to six others by an extensive network of O...H-N (0...N = 2.941(3) A), F...H-N (F...N = 3.171(4) A), and F...H-C (F...C = 3.318(5) A) hydrogen bonds. Crystals of 4,4-dimethyl-2,2-diphenyl-1,3-dioxa-4-azonia-2-boranatacyclopentane are orthorhombic, a = 17.043 (3), b= 6.289 (1), c= 13.024 (2) A, Z= 4, space group Pna2i. The structure was determined by direct methods, and was refined by full-matrix least-squares procedures to R 0,071 for 1100 reflexions. Bond angles in the five-membered ring , which has a distorted half-chair conformation, range from 101.5(4) for OBO to 107.1(4)° for NOB. Bond lengths are: mean B-C, 1.632 (8), B-0, 1.506(7) and 1.556 (8), N-0, 1.409(5), C-O, 1. 378 (9), C-N, 1.467-1.509(7-10), mean C-C(aromatic), 1.395(25)A. The structure consists of discrete molecules separated by normal van der Waals distances. Crystals of the N-methyldiethanolaminogallane dimer are orthorhomfcic, a = 19.112(4), b = 9.947(2), c = 7.709(2) A, Z = 4, space group P212121 . The structure was determined by Patterson and Fourier synthesis and was refined by full-matrix least-squares procedures to a final R of 0.056 for 1477 reflexions. The structure provides the first known crystallographic example of pentacoordinate gallium, the dimerization of HeH (CH2CH2O)2GaH occurring via the formation of a four-membered Ga2O2 ring. The coordination about the gallium is distorted trigonal bipyramidal with an angle of 151.2(4)° between the axial substituents. The mean bond distances are: Ga-N, 2.192(5), and Ga-O, 2.018(2) for axial ligands; Ga-O, 1.847(2), 1.960 (8), and Ga-H, 1.41(4) for equatorial ligands; O-C, 1.419(14), C-N, 1.470(7), C-C, 1.520 (12), and C-H, 1.00 (13) A. The molecule has C2 symmetry to within experimental error. There are possible C-H...0 hydrogen bonds (C...O, 3.13 (1)-3.44 (1) A) in the structure. Crystals of the hydridomolybdenum complex, C25H35Al3MO2, are orthorhombic, a = 19.398 (4) , b = 14.438 (9) , c = 9.0 35 (2) I, Z =4, space group P212121, The structure was determined by Patterson and Fourier syntheses, and refined by full-matrix least-sguares procedures to R 0.066 and Rw 0.063 for 1213 reflexions. The molecular structure exhibits several unusual features: C5H4 groups which are pentahapto to the molybdenum atoms and are involved via the unique carbon atom in multicentre bonding to two aluminum atoms, one of which occurs as an Al(Me)2 unit and the other an AlMe unit which also bridges the two molybdenum atoms. The third aluminum atom is probably involved in a Mo-H-Al (Me)2-H-Mo linkage. Mean bond distances are: Mo-Al, 2.659 and 2.974, Al-C(terminal) , 2.00, Al-C (bridge), 2.05 and 2.33, Mo-C (cyclopentadienyl) , 2. 285, and C-C (cyclopentadienyl) , 1.389 A. / Science, Faculty of / Chemistry, Department of / Graduate

Chemistry, Organic

X-ray crystallography

X-ray studies of enzyme action

Pulford, W. C. A.

January 1982

No description available.

572

Enzymes ; X-ray crystallography

Refinement of CsTi(SO4)2.12H2O crystal structure.

Sygusch, Jurgen Eric.

January 1969

No description available.

An investigation of the crystal structure of sodium hyponitrite

Hollis, Ralph Leroy

January 2011

Digitized by Kansas State University Libraries

Crystallography, Mathematical

X-ray crystallography

Sodium hyponitrite

An x-ray study of the changes in the structure of wheat starch in staling breads

Root, Marvin Ray

January 2011

Digitized by Kansas State University Libraries

Bread--Analysis

Starch

X-ray crystallography

Design and evaluation of a new x-ray diffraction topograph camera

Dreiling, Mark Jerome.

January 1964

Call number: LD2668 .T4 1964 D77 / Master of Science

X-ray crystallography.

Microradiography.

Masters theses

X-ray analysis of the cis form of 2.5 dimethylthiacyclopentane

Gallagher, George Ray.

January 1955

Call number: LD2668 .T4 1955 G35 / Master of Science

X-ray crystallography.

Cyclic compounds.

Masters theses

Structural studies of barnase mutants

Chen, Yu Wai

January 1994

No description available.

572

Protein folding; X-ray crystallography

Syntheses and structural studies of complexes of mixed donor pyridine/phenol and pyridine/pyrazole ligands

Couchman, Samantha M.

January 1999

No description available.

546

Lanthanide ions; X-ray crystallography

Comparative X-ray Structure Analyses of Multidentate Transition Metal Complexes

Flood, Kelly-Jayne

January 2006

The biological significance of macrocyclic complexes has been recognized since they were first synthesized by Neil Curtis. They have the potential to play a critical role in mimicking metalloprotein active sites. Nine Curtis macrocyclic complexes have been studied using X-ray crystallographic techniques. Their structures have been solved and comparisons of the results have been made. Biological importance is also true of the macrocyclic counterpart; side-off and end-off compartmental ligands. In some circumstances these types of ligands are more appropriate because they have extra flexibility due to their pendant arms not being fixed in place by another head-unit, like a traditional macrocycle. The synthesis of a proposed compartmental ligand; 2,2-(N,Nʼ-bis(benzimidazole-2-ylmethyl)methylamine-5,5ʼ-di-tert-butyl-3,3ʼmethanediyl-dibenzyl alcohol (Ligand 1(L1)), has been proposed and outlined. The pendant arms: bis(benzimidazole-2-ylmethyl)amine (BBIM), were successfully synthesized and characterized with 1H NMR, IR and X-ray crystallography. The head-unit: 5,5ʼ-Di-tert-butyl-2,2ʼ-dihydroxy-3,3ʼ-methanediyl-dibenzene methanol (DHTMBA), of L1 was synthesized and characterized using 1H NMR, IR and mass spectrometry. A similar head-unit; 5,5ʼ-Di-methyl-2,2ʼ-dihydroxy-3,3ʼ-methanediyl-dibenzene methanol (DHMMBA), was synthesized in an effort to shorten the synthetic time of the head-unit. This was consequently converted to the chlorine analogue; 3,3ʼ-Bis(chloromethyl)-5,5ʼ-dimethyl-2,2ʼ-methane-diyldiphenol (Cl-DHMMB), and characterized with 1H NMR, IR and X-ray crystallography. Efforts were made to synthesize Ligand 1, but due to synthetic difficulties and time restraints this proved unsuccessful. Suggestions have been made to develop this synthesis.

X-Ray Crystallography

Transition metal complexes