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Keyword [Cu Doping]
Result: 21 - 40 | Page: 2 of 3
21. Synthesis Of Copper-doped BiVO4 Composite Photocatalyst And Its Visible-Light Photocatalysis Degradation Research On The Indoor Formaldehyde
22. Investigation On The Thermoelectric Properties Of Novel Quaternary Cu-based Diamond-like Compounds(Cu2-?-?-?4))
23. Construction And Its Electroluminescence Properties Of QLED Based On Ni1-xO Synthesized By A Low-temperature Solution Method
24. The Synthesis And Magnetic Properties Of L10-FePt Nanoparticles
25. The Preparation,modification Of Perovskite AgNbO3 And Related Photocatalytic Performance
26. Preparations And Properties Of BaTiO3-Ni0.5Zn0.5Fe2O4 Composite Films With And Without Cu Doping By RF Sputtering
27. The Investigation On Thermoelectric Modification Of Ag And Cu Doped In SnSe Polycrystalline
28. Study On The Preparation,Cu Doping And Properties Of High Quality In2O3 Nanowires
29. Study On G-C3N4 Photocatalytic Performance Of Transition Metals(Cu,Co,Ni)under Coordination Effect
30. Study On The Effect Of Ca And Cu Doping On The Structure,Magnetism And Electrical Properties Of LaCrO3
31. Synthesis Of Cu Doped TiO2 Nanotubes And Their Photoelectric Properties
32. Preparation And Electrochemical Performance Of Copper-doped Nickel-Cobalt Hydroxide One-Dimensional Flexible Electrode
33. Effects Of High Crystallinity And Cu Modification On Photocatalytic Performance Of TiO2 Materials And Its Mechanism
34. Research On Cu And Rare Earth Elements Doped Fe-Ga Magnetostrictive Materials
35. Effect Of Cu And Co On Nb Segregation And Laves Phase Of Inconel718 Alloy
36. Preparation And Thermoelectric Properties Of Hot-pressed Textured P-type Bismuth Telluride-based Materials
37. Studies On Cu-TiO2 Modified By Organic Small Molecule Or Inorganic Acid To Improve Its Photocatalytic Performance
38. The Synthesis And Characterization Of The Antibacterial Materials Based On The Metal-organic Frameworks
39. Application Of Active Electrolyte And Electrode Modification In Supercapacitors
40. Microstructure And Tribological Properties In Multiple Environments Of Nc-Cu/a-C:H Films
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