Crystal structure and molecular geometry of dimeric azulenemanganese tricarbonyl,[(C10H8) Mn (CO) 3] 2 MR Churchill, RA Lashewycz, FJ Rotella Inorganic Chemistry 16 (2), 265-271, 1977 | 346 | 1977 |
Electronically focused time-of-flight powder diffractometers at the intense pulsed neutron source JD Jorgensen, J Faber, JM Carpenter, RK Crawford, JR Haumann, ... Journal of Applied Crystallography 22 (4), 321-333, 1989 | 310 | 1989 |
Role of bond lengths in the 90-K superconductor: A neutron powder-diffraction study of PF Miceli, JM Tarascon, LH Greene, P Barboux, FJ Rotella, JD Jorgensen Physical Review B 37 (10), 5932, 1988 | 284 | 1988 |
Characteristics and Crystal Structure of Bacterial Inosine-5‘-monophosphate Dehydrogenase, R Zhang, G Evans, FJ Rotella, EM Westbrook, D Beno, E Huberman, ... Biochemistry 38 (15), 4691-4700, 1999 | 252 | 1999 |
Crystal structure and thermal expansion of α‐quartz SiO2 at low temperatures GA Lager, JD Jorgensen, FJ Rotella Journal of Applied Physics 53 (10), 6751-6756, 1982 | 215 | 1982 |
Crystal structure and molecular geometry of HRu3 (CO) 10 (C= NMe2), including the direct location of the. mu. 2-bridging hydride ligand MR Churchill, BG DeBoer, FJ Rotella Inorganic Chemistry 15 (8), 1843-1853, 1976 | 204 | 1976 |
Structural studies of the hydrogen storage material magnesium nickel hydride (Mg2NiH4). 2. Monoclinic low-temperature structure P Zolliker, K Yvon, JD Jorgensen, FJ Rotella Inorganic Chemistry 25 (20), 3590-3593, 1986 | 195 | 1986 |
OH substitution in garnets; X-ray and neutron diffraction, infrared, and geometric-modeling studies GA Lager, T Armbruster, FJ Rotella, GR Rossman American Mineralogist 74 (7-8), 840-851, 1989 | 177 | 1989 |
The Structural Biology Center 19ID undulator beamline: facility specifications and protein crystallographic results G Rosenbaum, RW Alkire, G Evans, FJ Rotella, K Lazarski, RG Zhang, ... Journal of synchrotron radiation 13 (1), 30-45, 2006 | 163 | 2006 |
A crystallographic study of the low-temperature dehydration products of gypsum, CaSO4 · 2H2O: hemihydrate, CaSO4 · 0.50H2O, and γ-CaSO 4 GA Lager, T Armbruster, FJ Rotella, JD Jorgensen, DG Hinks American Mineralogist 69 (9-10), 910-919, 1984 | 124 | 1984 |
Molecules with an M4X4 core. 10. Failure of the 1: 1: 1 tricyclohexylphosphine-copper (I)-chloride complex to form a tetramer. Crystal structure of dimeric … MR Churchill, FJ Rotella Inorganic Chemistry 18 (1), 166-171, 1979 | 115 | 1979 |
Determination of the crystal structure and molecular geometry of [hydrotris (1-pyrazolyl) borato] copper (I) carbonyl. Unique structural investigation of a copper-carbonyl linkage MR Churchill, BG DeBoer, FJ Rotella, OM Abu Salah, MI Bruce Inorganic Chemistry 14 (9), 2051-2056, 1975 | 108 | 1975 |
Neutron diffraction investigation of ordered oxygen vacancies in the defect pyrochlores, Pb2Ru2O6. 5 and PbT1Nb2O6. 5 RA Beyerlein, HS Horowitz, JM Longo, ME Leonowicz, JD Jorgensen, ... Journal of Solid State Chemistry 51 (2), 253-265, 1984 | 107 | 1984 |
High-resolution time-of-flight powder diffractometer at the ZING-P''pulsed neutron source JD Jorgensen, FJ Rotella Journal of Applied Crystallography 15 (1), 27-34, 1982 | 104 | 1982 |
Neutron diffraction and ion-channeling investigations of atomic displacements in YBa2Cu3O7-δ between 10 and 300 K RP Sharma, FJ Rotella, JD Jorgensen, LE Rehn Physica C: Superconductivity 174 (4-6), 409-422, 1991 | 85 | 1991 |
COMPARATIVE GEOMETRY OF RH (MU-CL) 2RH AND RH (MU-H)(MU-CL) RH BRIDGES. CRYSTAL STRUCTURE OF (ETA 5-C5ME5RHCL) 2 (MU-CL) 2 AND ITS RELATIONSHIP TO (ETA 5-C5ME5RHCL) 2 (MU-H)(MU … MR Churchill, J SA | 84 | 1977 |
Magnetic and structural properties of Y Ba 2 Cu 3 O 7− x F y as prepared by a N F 3 gas anneal JR LaGraff, EC Behrman, JAT Taylor, FJ Rotella, JD Jorgensen, LQ Wang, ... Physical Review B 39 (1), 347, 1989 | 74 | 1989 |
Molecules with an M4X4 core. 9. Crystal structure and molecular geometry of tetrameric (methyldiphenylphosphine) copper (I) iodide,[(PMePh2) CuI] 4 MR Churchill, FJ Rotella Inorganic Chemistry 16 (12), 3267-3273, 1977 | 67 | 1977 |
Molecules with an M4X4 core. 8. Crystal structures of tetrameric triethylphosphinesilver (I) chloride and triethylphosphinesilver (I) bromide MR Churchill, J Donahue, FJ Rotella Inorganic Chemistry 15 (11), 2752-2758, 1976 | 64 | 1976 |
Deuterium site occupation in the oxygen‐stabilized η‐carbides Zr3V3ODx. I. Preparation and neutron powder diffraction FJ Rotella, HE Flotow, DM Gruen, JD Jorgensen The Journal of chemical physics 79 (9), 4522-4531, 1983 | 63 | 1983 |