Authors:
Shin, JH
Savage, W
Murphy, VJ
Bonanno, JB
Churchill, DG
Parkin, G
Citation: Jh. Shin et al., The syntheses, structures and reactivity of bis(tert-butylcyclopentadienyl)molybdenum derivatives: nitrogen alkylation of an eta(2)-acetonitrile ligand and influence of the chalcogen on the barrier to inversion of chalcogenoether adducts, J CHEM S DA, (11), 2001, pp. 1732-1753
Authors:
Huynh, MHV
Smyth, J
Wetzler, M
Mort, B
Gong, PK
Witham, LM
Jameson, DL
Geiger, DK
Lasker, JM
Charepoo, M
Gornikiewicz, M
Cintron, JM
Imahori, G
Sanchez, RR
Marschilok, AC
Krajkowski, LM
Churchill, DG
Churchill, MR
Takeuchi, KJ
Citation: Mhv. Huynh et al., Remarkable rate enhancement of ligand substitution promoted by geometricalarrangement of tridentate "spectator" ligands, ANGEW CHEM, 40(23), 2001, pp. 4469
Authors:
Kimblin, C
Churchill, DG
Bridgewater, BM
Girard, JN
Quarless, DA
Parkin, G
Citation: C. Kimblin et al., Tris(mercaptoimidazolyl)hydroborato complexes of cobalt and iron, [Tm-Ph](2)M (M = Fe, Co): structural comparisons with their tris(pyrazolyl)hydroborato counterparts, POLYHEDRON, 20(15-16), 2001, pp. 1891-1896
Authors:
Shin, JH
Bridgewater, BM
Churchill, DG
Parkin, G
Citation: Jh. Shin et al., Synthesis and structural characterization of PhP[(C5Me4)(2)], a monodentate chiral phosphine derived from intramolecular C-C coupling of tetramethylcyclopentadienyl groups: An evaluation of steric and electronic properties, INORG CHEM, 40(22), 2001, pp. 5626-5635
Authors:
Shin, JH
Bridgewater, BM
Churchill, DG
Baik, MH
Friesner, RA
Parkin, G
Citation: Jh. Shin et al., An experimental and computational analysis of the formation of the terminal nitrido complex (eta(3)-Cp)(2)Mo(N)(N-3) by elimination of N-2 from CP*Mo-2(N-3)(2): The barrier to elimination is strongly influenced by the exo versus endo configuration of the azide ligand, J AM CHEM S, 123(41), 2001, pp. 10111-10112
Authors:
Kimblin, C
Bridgewater, BM
Churchill, DG
Parkin, G
Citation: C. Kimblin et al., Synthesis and molecular structures of a pair of tris(imidazolyl)phosphine cobalt-perchlorate complexes, {[Pim(Pri2)]Co(OClO3)}[ClO4] and {[Pim(Pri2)]Co(OH2)(HOMe)(OClO3)}[ClO4], J CHEM S DA, (13), 2000, pp. 2191-2194
Citation: Mr. Churchill et al., Crystal structure of cis-[Ru(bpy)(2){PMe(o-tol)(2)}Cl+][ClO4-]: Steric effects in some PMen(o-tol)(3-n) (n=1-3) derivatives of ruthenium(II), J CHEM CRYS, 30(1), 2000, pp. 17-21
Authors:
Kimblin, C
Bridgewater, BM
Churchill, DG
Hascall, T
Parkin, G
Citation: C. Kimblin et al., Bis(mercaptoimidazolyl)(pyrazolyl)hydroborato complexes of zinc, cadmium, and cobalt: Structural evidence for the enhanced tendency of zinc in biological systems to adopt tetrahedral M[S-4] coordination, INORG CHEM, 39(19), 2000, pp. 4240-4243
Citation: D. Trauner et al., On the conformations of halichlorine and the pinnaic acids: Nitrogen inversion as a possible determinant of biological profile, HELV CHIM A, 83(9), 2000, pp. 2344-2351
Citation: Dg. Churchill et al., Modeling aspects of hydrodesulfurization at molybdenum: Carbon-sulfur bondcleavage of thiophenes by Ansa molybdenocene complexes, J AM CHEM S, 122(1), 2000, pp. 178-179
Authors:
Kimblin, C
Bridgewater, BM
Churchill, DG
Parkin, G
Citation: C. Kimblin et al., Mononuclear tris(2-mercapto-1-arylimidazolyl)hydroborato complexes of zinc, [Tm-Ar]ZnX: structural evidence that a sulfur rich coordination environment promotes the formation of a tetrahedral alcohol complex in a synthetic analogue of LADH, CHEM COMMUN, (22), 1999, pp. 2301-2302
Authors:
Ghosh, P
Churchill, DG
Rubinshtein, M
Parkin, G
Citation: P. Ghosh et al., Synthesis and molecular structure of bis(pyrazolyl)(3,5-di-tert-butylpyrazolyl)hydroborato thallium: a hetero-tris(pyrazolyl)hydroborato ligand derived from two different pyrazoles, NEW J CHEM, 23(10), 1999, pp. 961-963
Citation: Mr. Churchill et al., Absolute configuration of C27H41NO8Si, the diastereoselective product of the rhodium(II) octanoate catalyzed decomposition of a chiral vinyldiazomethane in the presence of 2-acetylpyrrole: A structural study rendered difficult by disorder of a "heavy" atom, J CHEM CRYS, 29(9), 1999, pp. 1061-1066
Citation: Mr. Churchill et al., Synthesis and crystal structures of two potential gem-di(pyrazolyl)cycloalkane ligands, 1,1-di(pyrazolyl)cyclohexane [C6H10(C3N2H3)(2)] and 1,1-di(pyrazol-1-yl)cyclopentane [C5H8(C3N2H3)(2)], J CHEM CRYS, 29(6), 1999, pp. 659-665
Authors:
Churchill, MR
Churchill, DG
Ahmed, G
Davies, HML
Citation: Mr. Churchill et al., Absolute configuration of C23H34O8Si, the product of an asymmetric synthesis involving the Rh(II) catalyzed reaction of a chiral vinyldiazomethane with methyl-2-methyl-3-furoate, J CHEM CRYS, 29(6), 1999, pp. 707-711
Authors:
Churchill, MR
Churchill, DG
Ahmed, G
Davies, HML
Citation: Mr. Churchill et al., Absolute configuration of C20H30O6Si, a species with a (1R,5R)-8-oxabicyclo[3,2.1]octa-2,6-diene core produced selectivity by the rhodium(II) octanoate catalyzed decomposition of a chiral vinyldiazomethane in the presence offuran, J CHEM CRYS, 29(6), 1999, pp. 713-717
Citation: Mr. Churchill et al., Crystal and molecular structure of the symmetrical bidentate ligand 3,3-di(1-pyrazolyl)pentane, CH3CH2C(C3H3N2)(2)CH2CH3, J CHEM CRYS, 29(4), 1999, pp. 463-467
Authors:
Beachley, OT
Rosenblum, DB
Churchill, MR
Churchill, DG
Krajkowski, LM
Citation: Ot. Beachley et al., Monomeric organogallium-nitrogen compounds. Chemistry of Et2GaNH[C6H2(2,4,6-t-Bu)(3)] with decomposition to the metallacycle {EtGaNH[C6H2(4,6-t-Bu)(2)CMe2CH2-2]}(2) and of EtGa{NH[C6H2(2,4,6-t-Bu)(3)]}(2), ORGANOMETAL, 18(13), 1999, pp. 2543-2549