Font Size: a A A
Keyword [MXene]
Result: 21 - 40 | Page: 2 of 10
21. Capacitive Energy Storage Mechanism And Applications Of Ti3C2Tx MXene
22. Studies On The Design Synthesis Of Pt-/Ru-Based Electrocatalysts And Their Performance Towards Methanol Oxidation And Hydrogen Evolution
23. Effect Of Cathode Supporting Materials And Surface Modification On Electrochemical Performance Of Lithium-sulfur Battery
24. Surface Modification Of PIPD Fibers For Improving Mechanical And Interfacial Performance
25. Research On Synthesis And Volumetric Capacitance Properties Of Holey Graphene And MXene-based Composite Films
26. Investigation On Microstructure Design And Electromagnetic Properties Of Two-dimensional Microwave Absorption Materials
27. Design,Synthesis And Biomedical Applications Of Emerging Two-dimensional Mxene And Silicene
28. Architecture And Electrochemical Properties Of Novel MAX/MXene-based Composite Electrode Materials
29. Preparation,Structure,and Catalytic Properties Of Ti2CTx-MXene And Its Derivative
30. Preparation Of Composite Materials Based On MXene And MoS2 And Study On Their Hydrogen Evolution And Humidity Sensitivity
31. Synthesis And Electrochemical Performance Of Two Dimensional Titanium Carbide MXene(Ti3C2Tx)Based Composites
32. Study On Preparation And Energy Storage Characteristics Of Supercapacitors Based On Nickel/Cobalt Composite For MXene Two Dimensional Materials
33. Surface Modification,Doping And Electrochemical Performance Of MXene
34. Two-dimensional Transition Metal Carbide-based Electrodes
35. Performances And Mechanisms For The Removal Of Carcinogenic Bromate And Hexavalent Chromium Lons From Water By Several Non-noble-metal-based Materials
36. Construction Of MXene-based Film Electrode And Its Supercapacitor Performance Investigation
37. Preparation,Characterization And Heat Storage Study Of Sulfate Based Inorganic Hydrous Salt And Composite Materials
38. Research On Preparation And Properties Of Porous Graphene And Mxene-based Cathode For Lithium-sulfur Batteries
39. Preparation Of Ti3C2Tx Composites And Study On Their Electromagnetic Wave Absorption And Shielding Properties
40. Tuning The Nanostructure Of 2D Ti3C2 Mxene For Optimization Of The Electrochemical Performance
  <<First  <Prev  Next>  Last>>  Jump to