High lubricity of re-doped fullerene-like MoS ₂ nanoparticles

Keyphrases

• Nanoparticles 100%
• Molybdenite 100%
• Fullerene-like 100%
• Doped Nanoparticles 100%
• Lubricity 100%
• Tribological Surface 40%
• Tribological Behavior 40%
• Resistivity 20%
• Rheological Properties 20%
• P-type 20%
• Electrical Properties 20%
• Semiconductors 20%
• Negatively Charged 20%
• Agglomeration 20%
• Microscopic Analysis 20%
• Repulsion 20%
• Synthetic Approaches 20%
• Dense Films 20%
• N-type Conductivity 20%
• Friction Coefficient 20%
• Undoped 20%
• Doping Level 20%
• Electrostatic Effect 20%
• Conductivity Type 20%
• WS 2 20%
• IF-MoS2 20%
• Rhenium 20%
• Discontinuous Film 20%
• Tribological Measurements 20%
• PAO Oil 20%
• Mixed Lubrication Condition 20%
• ICP-MS Method 20%
• Data Storage Media 20%
• Doping Density 20%
• Tribological Systems 20%
• Stable Suspension 20%

Material Science

• Nanoparticle 100%
• Fullerene 100%
• Surface (Surface Science) 30%
• Density 10%
• Film 10%
• Electrical Resistivity 10%
• Microscopy 10%
• Rhenium 10%
• Mixed Lubrication 10%