Skip to Main Content
Skip Nav Destination

Temperature dependence of the cation distribution in CuAl2O4 spinel

European Journal of Mineralogy (2005) 17 (4): 581–586.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Enhanced catalytic stability of non-stoichiometric Cu–Al spinel catalysts for dimethyl ether synthesis from syngas: Effect of coordination structure
Fuel Processing Technology (2023) 247: 107772.
Minor Elements and Color Causing Role in Spinel: Multi-Analytical Approaches
Minerals (2022) 12 (8): 928.
Synthesis, elastic properties, and high-temperature stability of multicomponent spinel oxide
MRS Communications (2022) 12 (5): 723.
Structural stability of CuAl2O4 under pressure
Journal of Physics: Condensed Matter (2021) 33 (3): 035403.
Cu-Site Disorder in CuAl2O4 as Studied by XPS Spectroscopy
JETP Letters (2021) 114 (9): 556.
Magnetic and structural properties of the solid solution CuAl2(1−x)Ga2xO4
Scientific Reports (2021) 11 (1)
Toward development of single-atom ceramic catalysts for selective catalytic reduction of NO with NH3
Journal of Hazardous Materials (2021) 401: 123413.
Influence of the inversion factor on Madelung constants in spinel systems
Solid State Communications (2021) 324: 114134.
Orbital Effects in Solids: Basics, Recent Progress, and Opportunities
Chemical Reviews (2021) 121 (5): 2992.
Novel Bimetallic Cu–Pd Nanoparticles as Highly Active Low-Temperature WGS Catalysts
Industrial & Engineering Chemistry Research (2020) 59 (5): 1789.
High coverage H2O adsorption on CuAl2O4 surface: A DFT study
Applied Surface Science (2020) 507: 145162.
First-principles calculations of the electronic structure and magnetism of nanostructured CoFe2O4 microgranules and nanoparticles
Physical Review B (2020) 102 (3)
The effects of Fe, Co and Ni doping in CuAl2O4 spinel surface and bulk: A DFT study
Applied Surface Science (2020) 521: 146478.
The structural and magnetic properties of the nano-CoFe2O4 ferrite prepared by sol-gel auto-combustion technique
Journal of Alloys and Compounds (2020) 817: 152786.
Copper-Containing Mixed Metal Oxides (Al, Fe, Mn) for Application in Three-Way Catalysis
Catalysts (2020) 10 (11): 1344.
Adsorption of Cun (n = 1‒4) clusters on CuAl2O4 spinel surface: A DFT study
Molecular Catalysis (2019) 468: 29.
Adsorption of Nin (n = 1‒4) clusters on perfect and O-defective CuAl2O4 surfaces: A DFT study
Chinese Chemical Letters (2019) 30 (6): 1147.
Thermodynamic investigations on the growth of CuAlO2 delafossite crystals
Journal of Solid State Chemistry (2018) 258: 495.
Analysis of the structural, electronic, elastic and thermodynamic properties of CuAl2X4 (X = O, S) spinel structure
Materials Research Bulletin (2018) 108: 255.
Thermodynamic stability of solid phases in the system Cu–O–Al2O3 by means of the EMF and DSC-TGA techniques
Journal of Solid State Electrochemistry (2018) 22 (4): 959.
Structural and magnetic properties of frustrated GaxMn(3-x)O4(1.2 ≤ x ≤ 1.6) spinels
Journal of Alloys and Compounds (2018) 748: 528.
Copper in Natural Oxide Spinels: The New Mineral Thermaerogenite CuAl2O4, Cuprospinel and Cu-Enriched Varieties of Other Spinel-Group Members from Fumaroles of the Tolbachik Volcano, Kamchatka, Russia
Minerals (2018) 8 (11): 498.
Temperature dependence of Cu–Al spinel formation and its catalytic performance in methanol steam reforming
Catal. Sci. Technol. (2017) 7 (21): 5069.
Design of micro-shell Cu–Al porous ceramometals as catalysts for the water–gas shift reaction
RSC Advances (2017) 7 (67): 42443.
First-principles investigations into the thermodynamics of cation disorder and its impact on electronic structure and magnetic properties of spinel Co(Cr1–xMnx)2O4
Journal of Physics: Condensed Matter (2017) 29 (5): 055805.
Cation distribution in Cu(Cr2–x Al x )O4 and Cu(Fe2–x Al x )O4 according to neutron-diffraction studies and their catalytic properties in the water-gas shift reaction
Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques (2016) 10 (6): 1161.
Heat treatment-induced compositional and structural changes in the preparation of CuCrAlO4 and CuFeAlO4
Inorganic Materials (2016) 52 (12): 1259.
On the influence of inversion on thermal properties of magnesium gallium spinel
Crystal Research and Technology (2015) 50 (12): 961.
Effect of the Cr/Fe ratio on the structure of Fe-Cr-Cu-containing oxide catalysts
Kinetics and Catalysis (2015) 56 (4): 493.
The effect of annealing on microstructure and cation distribution of NiFe2O4
Journal of Alloys and Compounds (2015) 649: 1231.
An EELS study of near edge structures of the oxygen K-edge in spinels
Physics and Chemistry of Minerals (2014) 41 (4): 255.
Sintering temperature reflected cation distribution of Zn2+ substituted CoFe2O4
Journal of Central South University (2013) 20 (6): 1469.
Charge transfer in spinel Co3O4at high pressures
Journal of Physics: Condensed Matter (2012) 24 (43): 435401.
Strong asymmetrical doping properties of spinel CoAl2O4
Journal of Applied Physics (2012) 111 (9): 093723.
Transport, electronic, and structural properties of nanocrystalline CuAlO2delafossites
Physical Review B (2011) 83 (4)
First-principles generalized gradient approximation + U study of cubic CuAl2O4
Applied Physics Letters (2011) 99 (9): 091902.
Do Cu(II) ions need Al atoms in their environment to make CuSiBEA active in the SCR of NO by ethanol or propane? A spectroscopy and catalysis study
Applied Catalysis B: Environmental (2009) 85 (3-4): 131.
Impact of disorder on ionic charge in spinel compounds
Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms (2008) 266 (12-13): 3002.
Structural, magnetic, and electronic properties of the Co-Fe-Al oxide spinel system: Density-functional theory calculations
Physical Review B (2007) 76 (16)
Close Modal

or Create an Account

Close Modal
Close Modal