Font Size:
a
A
A
Keyword [Ion doped]
Result: 41 - 60 | Page: 3 of 10
41.
Preparation, Properties And Biomedical Applications Of Infrared Upconversion And Absorption Nanomaterials
42.
Synthesis And Luminescence Properties Of Rare Earth Ion Doped YVO
4
Luminescence Nanomaterials
43.
Synthesis Of Metal Ion Doped Luminescent Materials And Applications In Development Of Fingermarks
44.
Preparation And Characteristics Of Inorganic Nanometer Partical Doped Carbon Nanofibers
45.
The Preparation And Spectroscopic Characterizations Research Of The Infrared Wave Band Of ZnSe Crystal
46.
The Research Of Rare Earth Ion Doped Phosphate Glass Optical Fiber Materials
47.
Research On The Photon Avalanche And Emission Bistability In Tm Ion Doped ZrO
2
Nanocrystals
48.
Study On Europium Ion Praseodymium Ion Doped Optical Properties Of High Density Scintillating Glasses
49.
Rare Earth Doped Photocatalytic Titanium Dioxide To Remove The Water Research On The Effects Of Organic Matter
50.
Preparation And Properties Of Rare Earth Ion Doped Fluoride Upconversion Luminescencc Materials
51.
Preparation And Photocatalysis Properties Of Nano-powder TiO
2
and Rare Earth Praseodymium Ion Doped TiO
2
by Activated Carbon Absorption
52.
Preparation Of Ion-doped VO
2
Thin Film And Research On The Thermally Induced Performance
53.
Investigation On The Preparation And Properties Of Aliovalent-ion Doped BiFeO
3
-based Thin Films
54.
Study On Preparation And Fluorescence Properties Of Rare Earth Ion Doped Silicate Phosphors
55.
The Research Of Rare Earth Ion Doped Multicoponent Glass Photonic Crystal Fiber Core Materials
56.
Effect Of Germanate Glasses Fluorescence Properties Of Rare Earth Ion-doped Optical Basicity
57.
Study On The Preparation And Adsorption And Photocatalysis Properties Of Doped TiO
2
58.
Planar Photocatalytic Microreactor Of Metal Ion Doped Titanium Dioxide
59.
Investigation On The Preparation And Properties Of B Site Ion Doped Na
0.5
Bi
0.5
TiO
3
-Based Thin Films
60.
Photocatalytic Activity Of Metal Ion-doped ZnO(Me:ZnO) Prepared By Low-temperature Solution Method
<<First
<Prev
Next>
Last>>
Jump to