Lubricant additives can effectively enhance the performance and environmental adaptability
of lubricants and reduce the energy loss and machine wear caused by friction …

The study of lubricating oil is paramount for the optimal functioning of modern engines, and it
has generated intensive research in the automotive industry. The aim is to improve the …

Recent advances in sensing technologies address environmental pollution by enabling
rapid and sensitive contaminant detection. Among these, porphyrin-and graphene-based …

Graphite holds great potential as a next-generation anode material for energy storage
devices. However, the low working voltage of graphite leads to electrolyte decomposition …

This work investigates the morphologies of Fe 3 O 4 nanoparticles how to affect the
tribological properties when they are applied as nano-lubricating additives. Fe 3 O 4 …

In this work, antifriction and antiwear capabilities of hexagonal boron nitride nanoparticles (h-
BN) or graphene nanoplatelets (GnP) as additives of a polyalphaolefin neat oil (PAO 40) …

This research is based on the investigation of the tribological properties of a biodegradable
polymeric ester lubricant (BIOE) additivated with two different pristine graphene …

Graphene-based materials have great potential for tribological applications. Graphene's
unique properties such as low shear resistance, high stiffness, and thermal conductivity …

The need for energy efficiency is leading to the growing use of additives to enhance the
performance of oil in automotive engines. Great interest is focused on nano-additives even if …

Reducing power losses in engines is considered a key parameter of their efficiency
improvement. Nanotechnology, as an interface technology, is considered one of the most …