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Volumn 123, Issue 2-3, 2010, Pages 816-820
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Self-combustion synthesis and oxygen storage properties of mesoporous gadolinia-doped ceria nanotubes
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Author keywords
Chemical synthesis; Electron microscopy (TEM and SEM); Microstructure; Oxides
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Indexed keywords
ADSORPTION DESORPTION;
ANODIC ALUMINA OXIDE;
CHEMICAL SYNTHESIS;
COMBUSTION REACTIONS;
DOPED-CERIA;
FORMING PROCESS;
GADOLINIA DOPED CERIA;
HOLLOW STRUCTURE;
ICP-AES;
MESOPOROUS;
METAL NITRATE;
MOLAR RATIO;
OXIDATIVE ATMOSPHERE;
OXYGEN STORAGE;
OXYGEN STORAGE CAPACITY;
REDUCTION REACTION;
SELECTED AREA ELECTRON DIFFRACTION;
SELF-COMBUSTION;
SEM;
TEM;
TEM OBSERVATIONS;
THERMAL STABILITY;
THERMOGRAVIMETRY;
TYPE STRUCTURES;
XRD;
XRD PATTERNS;
ADSORPTION;
ASPECT RATIO;
ATOMIC EMISSION SPECTROSCOPY;
CALCINATION;
CERIUM;
CERIUM COMPOUNDS;
COMBUSTION SYNTHESIS;
DESORPTION;
DIFFERENTIAL THERMAL ANALYSIS;
ELECTRON TUBES;
GADOLINIUM;
GLYCOLS;
MICROSTRUCTURE;
NANOTUBES;
OXYGEN;
SCANNING ELECTRON MICROSCOPY;
THERMODYNAMIC STABILITY;
THERMOGRAVIMETRIC ANALYSIS;
TUBES (COMPONENTS);
SYNTHESIS (CHEMICAL);
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EID: 77955339856
PISSN: 02540584
EISSN: None
Source Type: Journal
DOI: 10.1016/j.matchemphys.2010.05.066 Document Type: Article |
Times cited : (11)
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References (19)
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