Synergistic Lubrication Effect between Oxidized Black Phosphorus and Oil Molecules Triggers Superlubricity

Abstract: Oxidized black phosphorus (BP) has been demonstrated as a promising oil-based nanoadditive because of its superior friction-reducing capability. However, the synergistic lubrication effect between oxidized BP and oil at the molecular level dominating the friction properties remains unclear. In this Letter, the synergistic lubrication effect between oxidized BP and two typical oil molecules (nonane and nonanoic acid) was explored with an atomic force microscope. The superlubricity of oxidized BP with an ultralo… Show more

“…It revealed that the contact angle of the BPQD aqueous solution (37°) was smaller than that of the base liquid (53°). It is worth noting that the BPQD aqueous solution presents supereminent wettability …”

Black Phosphorus Quantum Dots in Aqueous Environments as Lubricants

“…It revealed that the contact angle of the BPQD aqueous solution (37°) was smaller than that of the base liquid (53°). It is worth noting that the BPQD aqueous solution presents supereminent wettability …”

Black Phosphorus Quantum Dots in Aqueous Environments as Lubricants

Origin of superlubricity promoted by black phosphorus dotted with gold nanoparticles

Atomic-scale friction of black phosphorus/degraded Cu substrate: A route to robust superlubricity obtained by the critical load