최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기Journal of the American Ceramic Society, v.82 no.12, 1999년, pp.3279 - 3292
Sickafus, Kurt E. , Wills, John M. , Grimes, Norman W.
This paper reviews the crystal structure of compounds with the general formula AB2X4, which crystallize with the same atomic structure as the mineral spinel, MgAl2O4. Three degrees of freedom associated with the detailed atomic arrangements of spinels are considered here: (i) the lattice parameter, ...
Grimes, N.W.. The spinels: versatile materials. Physics in technology, vol.6, no.1, 22-27.
Bragg, W.H.. XXX. The structure of the spinel group of crystals. The London, Edinburgh and Dublin philosophical magazine and journal of science, vol.30, no.176, 305-315.
Proc. Math. Phys. Soc. Tokyo Nishikawa S. 199 8 1915 Structure of Some Crystals of the Spinel Group
International Tables for X‐ray Crystallography Henry N. F. M. 1952
Finger, Larry W., Hazen, Robert M., Hofmeister, Anne M.. High-Pressure crystal chemistry of spinel (MgAl2O4) and magnetite (Fe3O4): Comparisons with silicate spinels. Physics and chemistry of minerals, vol.13, no.4, 215-220.
Structure and Properties of Inorganic Solids Galasso F. S. 1970
The Analytical Expression of the Results of the Theory of Space Groups Wycoff R. W. G. 1930
Sun, R.. Diffusion of Cobalt and Chromium in Chromite Spinel. The Journal of chemical physics, vol.28, no.2, 290-293.
Grimes, N. W.. Self-diffusion in compounds with spinel structure. The philosophical magazine, vol.25, no.1, 67-76.
Iida, Shūichi. Layer Structures of Magnetic Oxides. Journal of the Physical Society of Japan, vol.12, no.3, 222-233.
Verwey, E. J. W., de Boer, J. H.. Cation arrangement in a few oxides with crystal structures of the spinel type. Recueil des travaux chimiques des Pays-Bas, vol.55, no.6, 531-540.
Verwey, E. J., Haayman, P. W., Romeijn, F. C.. Physical Properties and Cation Arrangement of Oxides with Spinel Structures II. Electronic Conductivity. The Journal of chemical physics, vol.15, no.4, 181-187.
J. Wash. Acad. Sci. Barth T. F. W. 255 21 1931 The Spinel Structure: An Example of Variate Atom Equipoints
Posnjak, E., Barth, Tom F. W.. A New Type of Crystal Fine-Structure: Lithium Ferrite (Li2O ·Fe2O3). Physical review, vol.38, no.12, 2234-2239.
Barth, Tom. F. W., Posnjak, E.. Spinel structures: with and without variate atom equipoints. Zeitschrift für Krystallographie und Mineralogie, vol.82, no.1, 325-341.
Verwey, E. J. W., Heilmann, E. L.. Physical Properties and Cation Arrangement of Oxides with Spinel Structures I. Cation Arrangement in Spinels. The Journal of chemical physics, vol.15, no.4, 174-180.
Schmocker, U., Boesch, H.R., Waldner, F.. A direct determination of cation disorder in MgAl2O4 spinel by ESR. Physics letters: A, vol.40, no.3, 237-238.
Brun, E., Hafner, S., Hartmann, P., Laves, F.. Elektrische Quadrupolwechselwirkung von Al27 und Kationenverteilung in Spinell (MgAl2O4). Die Naturwissenschaften, vol.47, no.12, 277-277.
Stoll, E., Fischer, P., Hälg, W., Maier, G.. Redetermination of the cation distribution of spinel (MgAl2O4) by means of neutron diffraction. Journal de physique, vol.25, no.5, 447-448.
Schmocker, U, Waldner, F. The inversion parameter with respect to the space group of MgAl2O4 spinels. Journal of physics. C, Solid state physics, vol.9, no.9, L235-L237.
Am. Mineral. O'Neill H. S. C. 725 77 1992 The Temperature Dependence of the Cation Distribution in Magnesioferrite (MgFe2O4) from Powder XRD Structural Refinements and Mössbauer Spectroscopy
Hafner, S., Laves, F.. Ordnung/Unordnung und Ultrarotabsorption III. Die Systeme MgAl2O4-A12O3und MgAl2O4-LiAl5O8. Zeitschrift für Kristallographie, Kristallgeometrie, Kristallphysik, Kristallchemie, vol.115, no.5, 321-330.
Hafner, Stefan. Ordnung/Unordnung und Ultrarotabsorption IV. Die Absorption einiger Metalloxyde mit Spinellstruktur. Zeitschrift für Kristallographie, Kristallgeometrie, Kristallphysik, Kristallchemie, vol.115, no.5, 331-358.
Brun, E., Hafner, S.. Die elektrische Quadrupolaufspaltung von Al27in Spinell MgAl2O4und Korund Al2O3 : I. Paramagnetische Kernresonanz von Al27und Kationenverteilung in Spinell. Zeitschrift für Kristallographie, Kristallgeometrie, Kristallphysik, Kristallchemie, vol.117, no.1, 37-62.
Brun, E., Hafner, S.. Die elektrische Quadrupolaufspaltung von Al27in Spinell MgAl2O4und Korund Al2O3 : II. Das Ionenmodell zur Deutung der gemessenen Quadrupolaufspaltung. Zeitschrift für Kristallographie, Kristallgeometrie, Kristallphysik, Kristallchemie, vol.117, no.1, 63-78.
Gobbi, G C, Christoffersen, R, Otten, M T, Miner, B, Buseck, P R, Kennedy, G J, Fyfe, C A. DIRECT DETERMINATION OF CATION DISORDER IN MgAl2O4 SPINEL BY HIGH-RESOLUTION 27Al MAGIC-ANGLE-SPINNING NMR SPECTROSCOPY. Chemistry letters, vol.14, no.6, 771-774.
Am. Mineral. Millard R. L. 44 77 1992 Temperature Dependence of Cation Disorder in MgAl2O4 Spinel Using 27Al and 170 Magic‐Angle‐Spinning NMR
Fischer, P.. Neutronenbeugungsuntersuchung der Strukturen von MgAl2O4- und ZnAl2O4-Spinellen, in Abhängigkeit von der Vorgeschichte. Zeitschrift für Kristallographie, Kristallgeometrie, Kristallphysik, Kristallchemie, vol.124, no.4, 275-302.
Verwey, E. J., Haayman, P. W., Romeijn, F. C.. Physical Properties and Cation Arrangement of Oxides with Spinel Structures II. Electronic Conductivity. The Journal of chemical physics, vol.15, no.4, 181-187.
TRESTMAN‐MATTS, A., DORRIS, S.E., MASON, THOMAS O.. Measurement and Interpretation of Thermopower in Oxides. Journal of the American Ceramic Society, vol.66, no.8, 589-592.
Comp. R. Acad. Sci. Paris Néel L. 190 230 1950 Animation à Saturation de Certains Ferrites
Comp. R. Acad. Sci. Paris Pauthenet R. 1842 230 1950 Variation Thermique de l'Aimantation Spontanée des Ferrites de Nickel, Cobalt, Fer et Manganèse
Bertaut, E.F.. Sur quelques progrès récents dans la cristallographie des spinelles, en particulier des ferrites. Le journal de physique et Le radium : publication de la Société Française de Physique, vol.12, no.3, 252-255.
Ionic Crystal Lattice Defects and Non‐Stoichiometry Greenwood N. N. 1970
Verwey, E. J. W., de Boer, F., van Santen, J. H.. Cation Arrangement in Spinels. The Journal of chemical physics, vol.16, no.12, 1091-1092.
de Boer, F., van Santen, J. H., Verwey, E. J. W.. The Electrostatic Contribution to the Lattice Energy of Some Ordered Spinels. The Journal of chemical physics, vol.18, no.8, 1032-1034.
Ewald, P. P.. Die Berechnung optischer und elektrostatischer Gitterpotentiale. Annalen der Physik : adp, vol.369, no.3, 253-287.
Verwey, E.J.W., Haayman, P.W.. Electronic conductivity and transition point of magnetite (“Fe3O4”). Physica, vol.8, no.9, 979-987.
BRAUN, P. B.. A Superstructure in Spinels. Nature, vol.170, no.4339, 1123-1123.
The Nature of the Chemical Bond Pauling L. 1960
Chen, S.P., Yan, M.. Atomistic study of defect, metastable and 'amorphous' structures of MgAl204. Philosophical magazine letters, vol.73, no.2, 51-62.
Crystal Chemistry and Refractivity Jaffe H. W. 1996
Hill, Roderick J., Craig, James R., Gibbs, G. V.. Systematics of the spinel structure type. Physics and chemistry of minerals, vol.4, no.4, 317-339.
Shannon, R. D.. Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides. Acta crystallographica. Section A, Crystal physics, diffraction, theoretical and general crystallography, vol.32, no.5, 751-767.
Lou, F H, Ballentyne, D W G. Visible and ultra-violet emission and absorption spectra of MgAl2O4:Cr. Journal of physics. C, Solid state physics, vol.1, no.3, 608-613-1.
Grimes, N W. Structural distortions in MgCr2O4. Journal of physics. C, Solid state physics, vol.4, no.16, L342-L344.
Grimes, N W. Antiferroelectricity among compounds with spinel structure?. Journal of physics. C, Solid state physics, vol.6, no.4, L78-L79.
Peters, J, Standley, K J. The Dielectric Behaviour of Magnesium Manganese Ferrite. Proceedings of the Physical Society, vol.71, no.1, 131-133.
Kittel, C.. Model of Exchange-Inversion Magnetization. Physical review, vol.120, no.2, 335-342.
Grimes, N. W.. 'Off-centre' ions in compounds with spinel structure. The philosophical magazine, vol.26, no.5, 1217-1226.
Hwang, L., Heuer, A. H., Mitchell, T. E.. On the space group of MgAl2O4spinel. The philosophical magazine, vol.28, no.1, 241-243.
Samuelsen, E J, Steinsvoll, O. On the space group of spinel. Journal of physics. C, Solid state physics, vol.8, no.21, L427-L429.
Heuer, A H, Mitchell, T E. Further discussion on the space group of spinel. Journal of physics. C, Solid state physics, vol.8, no.23, L541-L543.
Mishra, R. K., Thomas, G.. Structural phase transition in the spinel MgA12O4. Acta crystallographica. Section A, Crystal physics, diffraction, theoretical and general crystallography, vol.33, no.4, 678-678.
Smith, P. P. K.. Note on the space group of spinel minerals. Philosophical magazine. B, Physics of condensed matter, electronic, optical, and magnetic properties, vol.38, no.1, 99-102.
Tokonami, M., Horiuchi, H.. On the space group of spinel, MgAl2O4. Acta crystallographica. Section A, Crystal physics, diffraction, theoretical and general crystallography, vol.36, no.1, 122-126.
New symmetry and structure for spinel. Proceedings of the Royal Society of London. Series A, Mathematical and physical sciences, vol.386, no.1791, 333-345.
Collyer, S, Grimes, N W, Vaughan, D J. Does magnetite lack a centre of symmetry?. Journal of physics. C, Solid state physics, vol.21, no.29, L989-L992.
Hudson, A., Whitfield, H.J.. Electric field gradients in normal spinels. Molecular physics, vol.12, no.2, 165-172.
Evans, B. J., Hafner, S. S., Weber, H. P.. Electric Field Gradients at 57Fe in ZnFe2O4 and CdFe2O4. The Journal of chemical physics, vol.55, no.11, 5282-5288.
Westrum Jr., Edgar F., Grimes Jr., D.M.. Low temperature heat capacity and thermodynamic properties of zinc ferrite. The Physics and chemistry of solids, vol.3, no.1, 44-49.
On the specific heat of compounds with spinel structure - II. Zinc ferrite, a paramagnetic compound with magnetic ion occupying the octahedral site. Proceedings of the Royal Society of London. Series A, Mathematical and physical sciences, vol.338, no.1613, 223-233.
Dawes, P P, Grimes, N W, O'Connor, D A. Direct experimental evidence of low temperature anharmonicity in superconducting spinels. Journal of physics. C, Solid state physics, vol.7, no.21, L387-L389.
Dawes, P.P., Grimes, N.W.. Superconductivity among compounds with spinel structure and the strong coupling mechanism. Solid state communications, vol.16, no.1, 139-141.
Hohenberg, P., Kohn, W.. Inhomogeneous Electron Gas. Physical review, vol.136, no.b3, B864-B871.
Wills, J. M., Eriksson, Olle. Crystal-structure stabilities and electronic structure for the light actinides Th, Pa, and U. Physical review. B, Condensed matter, vol.45, no.24, 13879-13890.
Andersen, O. Krogh. Linear methods in band theory. Physical review B, Solid state, vol.12, no.8, 3060-3083.
Z. Kristallogr. Machatschki F. 348 82 1932 10.1524/zkri.1932.82.1.348 Der Magnesium‐Gallium‐Spinell
J. M.Wills “Electronic Structure Calculations for Spinel Compounds: MgAl2O4 MgGa2O4 and MgIn2O4 ”Phys. Rev. B: Condens. Matter to be submitted (1999).
Inorganic Sulfur Chemistry Jellinek F. 667 1970
Haas, C.. Phase transitions in crystals with the spinel structure. The Journal of physics and chemistry of solids, vol.26, no.8, 1225-1232.
Ohzuku, Tsutomu, Ueda, Atsushi, Yamamoto, Norihiro. Zero‐Strain Insertion Material of Li [ Li1 / 3Ti5 / 3 ] O 4 for Rechargeable Lithium Cells. Journal of the Electrochemical Society : JES, vol.142, no.5, 1431-1435.
Yu, Ning, Sickafus, Kurt E., Nastasi, Michael. First observation of' amorphization in single-crystal MgA12O4spinel. Philosophical magazine letters, vol.70, no.4, 235-240.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.