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Keyword [apatite]
Result: 1 - 20 | Page: 1 of 2
1.
Application Of Gel-Casting Technique In The Development Of Intermediate Temperature Solid Oxide Fuel Cells
2.
Synthesis And Characterization Of Apatite-type Lanthanum Silicate (ATLS) Deposited By Atmospheric Plasma Spraying As A Novel Electrolyte At Intermediate Temperature Solid Oxide Fuel Cells (IT-SOFCs)
3.
Study On Ceria-Based And Apatite-Type Lanthanum Silicate-Based Electrolytes
4.
Synthesis And Conductivity Of Oxy-apatite Solid Electrolyte
5.
Preparation And Mechanism Study Of Bioactive Oxide Film On The Surface Of Titanium Alloys
6.
Low-temperature Deposition Of Crystalline Titania Films On Titanium Substrates And The Bioactivity In Vitro
7.
Preparation And Characterization Of Low-temperature Of Apatite-type Ionic Conductor
8.
Preparation And Properties Of Apatite-type La
9.33
Si
6-x
Ge
x
O
26
And La
9
A(SiO
4
)
6
O
2.5
(A=Ca, Sr, Ba) Electrolyte Materials
9.
Preparation Of Alkaline Metal Ion Doped Apatite Type Lanthanum Silicate Oxyapatite Solid Electrolyte By Gel Self-propagating Burning
10.
Preparation And Characterization Of Apatite-type Silicate
11.
Preparation And Characterization Of Electrolyte Film Materials For IT-SOFC
12.
Preparation And Study Of Electrolytes Used For Intermediate Temperature Solid Oxide Fuel Cells
13.
Molten-salt Synthesis And Characterization Of Apatite La
9.33
Ge
6
O
26
Electrolyte
14.
Microstructure And Electrical Properties Of Oxy-apatite Lanthanum Silicate Doped With Cations
15.
Fabrication Of La
10
Si
5.8
Mg
0.2
O
26.8
Electrolytes And Their Supporting Anodes
16.
Molten-salt Synthesis And Characterization Of Apatite La
9.33
Si
6
O
26
Electrolyte
17.
Synthesis And Characterization Of La
9.33
Ge
6
O
26
Electrolyte And Its Co Doping On Ge Site
18.
First-principle Study On Ion Irradiation Performance Of Ceramics Matrix Materials For Solidifying High-level Radioactive Waste
19.
Lanthanide containing apatites: Synthesis and calorimetric studies with focus on materials for solid oxide fuel cells and drug delivery
20.
The development of the (U-Th)/He thermochronometer
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