NanoLub is the world's first synthetic lubricant to be based on spherical inorganic nanoparticles. As with other lubricants, its job is to reduce wear and friction between moving objects (like engine parts), enabling longer operation and higher efficiency. NanoLub dramatically outperforms every known commercial solid lubricant marketed today.
As its creator, ApNano Materials has just been selected by the US investing journal Red Herring as one of the top 100 innovators that will drive global markets in 2005.
The search for a perfect lubricant - that is, one that never requires replacement - is an old one. In the last century, synthetic additives extended the effectiveness of age-old lubricants like oil. ApNano's product is the result of the pioneering research performed by Professor Reshef Tenne, ApNano CEO Genut and others in the Department of Materials and Interfaces at the Weizmann Institute of Science.
The advantage of NanoLub over existing solid lubricants is expressed in its description, "spherical inorganic nanoparticles." NanoLub spheres can roll over one another - like miniature ball bearings - staying cooler and maintaining their function longer. Their nanometer scale enables them to find their way into tinier places and reduces their agglomeration, resulting in dramatically increased coverage, even on rough surfaces. Finally, as inorganic material, NanoLub performs beautifully even in extremely harsh environments.
NanoLub has even been shown to improve lubrication efficiency for roughly-finished parts and surfaces, so that manufacturers can spend less time and money machining their parts. On the environmental side, using NanoLub reduces energy consumption and can decrease air pollution. Finally, NanoLub can be used as an additive, as an impregnated material, as a component in polymer or metal composites, or simply by itself as a powder.
ApNano is testing NanoLub in numerous maintenance-free systems, including aerospace, medical and marine industries, ultra-clean manufacturing environments, and in heavy machinery such as power plant turbines.
But perhaps the most exciting prospect that arises from NanoLub is the possibility that automotive engines can be sealed completely, without need for an oil change - ever.
Considering that heat and wear are among the primary causes of engine and transmission failure today, NanoLub may even raise the future reliability of these components to that of today's semiconductor chips.
In some of the trials performed with NanoLub, testers were simply unable to create enough friction in the lubricant to produce measurable damage - even when trial durations were increased severely beyond specifications.
Some see NanoLub as an upstart in the well-established lubricants industry. According to one research firm, extreme pressure/anti-wear additives make up only about $1 billion in annual revenues globally, as compared to $37 billion for the broader lubricants market.
But if NanoLub succeeds, the market could grow significantly and force larger producers like Shell, ExxonMobile and ChevronTexaco to develop more competitive technologies.
Another element of NanoLub's market appeal is that it provides a 'greener' alternative to many existing lubricants. Environmental concerns are a growing concern for big producers. "With all the green market trends - the demands of environmentalists, the need to extend fuel mileage - there is a need to look for alternatives, and our process is green and environmentally friendly. We're bringing them a very painless way to make the change."
Regarding competition, Fleisher noted that last week ApNano executives met with five separate companies. "Almost without exception, these companies spoke of being approached with other solutions based on nanomaterials, but that NanoLub is the only product they have seen that meets their criteria."
CEO Genut has stated that NanoLub's cost will be competitive with existing high performance synthetic lubricants.