Samarium Doped Cerium Oxide SDC20

Samarium Doped Cerium Oxide SDC20

$120.82
Chemicalformula:
Sm0.2Ce0.8O1.9
Model:
FM-EM-SO-0011
Brand:
canrd
Classification:
solidoxide fuel cell SOFC, energy materials, experimental materials, fuel cells, all
item_No
Specifications
Price
FM-EM-SO-001101
50g
$120.82

Details

This product is designed for advanced energy materials research, particularly in solid oxide fuel cells (SOFCs) and related electrochemical systems. Samarium-doped cerium oxide SDC20 (Sm0.2Ce0.8O1.9) features a fluorite-type crystal structure where Sm³⁺ substitution introduces oxygen vacancies, enhancing oxygen ion conductivity. It exhibits high thermal stability, mechanical hardness, and resistance to common acids and alkalis, making it suitable for high-temperature ceramic components, oxygen sensors, and catalyst supports. Technical characterization confirms a surface area of 54.1 m²/g and a particle size below 50 nm (45 nm measured), with low impurity levels (each below 100 ppm) and a loss on ignition of 0.3%. This material provides reliable performance for solid-state ion conduction and catalytic applications in energy conversion devices.

samarium doped cerium oxide SDC20, I .e. S'm'Ce. O', is doped with cerium oxide (CeO₂) as the base and samarium (Sm) at a mole fraction of 20%. In terms of crystal structure, Sm³ enters the crystal lattice of CeO₂ to form a fluorite-type structure. Due to the difference in ionic radii between Sm³ and Ce ³, oxygen vacancies will be introduced into the crystal lattice, which has an important impact on its performance.
[characteristics] high oxygen ion conductivity, high thermal stability, high hardness and wear resistance, not easy to react with common acid and alkali.
[use] solid oxide fuel cell (SOFC), oxygen sensor field, high temperature ceramic field, catalytic field (as catalyst carrier).

Product Name Samarium-doped Cerium Oxide SDC20 Product Code FM-EM-SO-00011
Chemical Formula Sm0.2Ce0.8O1.9


Test Item Unit Specification Test Method Test Result
Main Components



CeO2 % 79.54~80.04 XRF, ARL Perform'X
4200, ThermoFisher		 79.87
Sm2O3 % 19.96~20.46 20.13
Impurity Components



Al2O3 ppm max. 100 Optima 2000DC, PE 19
Fe2O3 ppm max. 100 10
TiO2 ppm max. 100 29
SiO2 ppm max. 100 21
CaO ppm max. 100 33
CuO ppm max. 100 5
BaO ppm max. 100 18
ZnO ppm max. 100 7
La2O3 ppm max. 100 3
Loss on Ignition % ≤ 0.5 0.3
Surface Area m²/g ≥ 50 54.1
Particle Size nm < 50 45

Non-product quality problem, no return

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