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Keyword [ZnCo2O4]
Result: 1 - 20 | Page: 1 of 2
1. Preparation And Thermoelectric Of Cobalt Base Thermoelectric Oxides
2. The Research Of The Preparation Of ZnCo2O4 Photocatalyst And The Performance
3. The Photoelectric Properties And Electrochemical Performance Of Two Typical Zinc-based Nanomaterials
4. Study On The Gas Sensing Properties Of Binary Metal Oxides(AB2O4) With Hierarchical Structures
5. Synthesis Of Spinel-based Nanocatalysts And Their Application In Oxygen Evolution Reaction
6. Synthesis Of ZnAl-LDH/ZnCo2O4 Using Pollen As Template And Its Adsorption And Photocatalysis Properties
7. Synthesis And Magnetic Properties Of ZnFe2O4@SiO2 And ZnCo2O4@SiO2 Nano-particles With Core-shell Structures
8. Preparation And Properties Of Energy Storage Materials Based On MOF
9. Synthesis And Electrochemical Performance Of Anode Materials (Carbonates, Cobaltates, Molybdenum Disulfide) For Lithium-ion Battery
10. Preparation And Supercapacitive Performance Of Co-based Nanocomposites
11. Study On The Synthesis Of Metal Oxide And The Performance Of Their Composites With Multiwall Carbon Nanotubes As Pseudacapacitor Supercapacitors
12. Controlled Synthesis Of Two–Dimensional Porous Cobaltites Thin Sheets And Their Supercapacitive Property
13. Preparation Of Novel Metal Nanowires/MWNTs/Sponge Electrodes And Their Catalytic Properties For Dielectric Barrier Discharge
14. Study Of Transition Metal Carbides And Oxides Compound As Electrode Material
15. Construction And Properties Of Zn/Co Based Supercapacitance Electrode Materials
16. The Preparation Of Transition Metal Cobaltates And Its Electrochemical Performance Study
17. Study On The Preparation And Electrochemical Performances Of Zinc Cobaltite Electrode Materials
18. Study On Effect Of Novel Supports And Co-catalysts On The Performance Of Cobalt-based Fischer-tropsch Synthesis Catalysts
19. Preparation Of ZnCo2O4-based Composite Materials For Supercapacitor Electrodes And Their Investigation Of Electrochemical Performance
20. Study On Zinc Cobalt Oxide Materials And Its Gas Sensing Properties Toward Formaldehyde Gas
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