64,90 incl. VAT

Contents: 400 ml
for all four-stroke engines with 6 – 18 l oil
for petrol, diesel, LPG, and natural gas


  • Improved engine performance
  • Reduced fuel consumption
  • Minimised CO2 emissions
  • Lower noise level
  • Reduced friction and wear


  • Smoother and more responsive engine operation
  • Reduced motor oil temperature
  • Protection against rust and corrosion
  • Longer service intervals
  • Reduced particle emissions
  • Longer service life of the aggregates
  • Excellent dry-running properties


  • Do not use for motorcycles with an oil bath clutch and a shared oil circulation system.
  • Not suitable for two-stroke engines.

Before using BORPower NanoGreen MS-600, allow your engine to warm up for 10 minutes. Shake the bottle for at least 2 minutes (to disperse the nanocrystals). Pour the product into the engine, and keep it running for at least 10 minutes, or drive a distance of around 20 km. You can also add Borpower to a cold engine. However, in this case you will have to drive for around 200 km before the effect sets in.

About the product
BORPower NanoGreen MS-600 can be used without reservations in all vehicles with a four-stroke engine and an oil capacity of between 6 and 18 litres. The high-tech product was developed by means of nanotechnology from the element boron that features extraordinary tribological qualities and has been setting new lubrication technology standards.

It was developed in order to optimise the engine’s functions, and to provide lasting protection. The product’s coating and bearing-ball effect reduces friction, wear, and corrosion in the engine.

BORPower NanoGreen MS-600 is a global innovation. Unlike many other lubricant additives, the product does not cause chemical reactions, but its mode of action is of a purely physical nature.

BORPower NanoGreen MS-600 contains active substances such as MCDP (Mono Crystal Diamond Powder) and nanoboron that are grouted into the rough metal surfaces under high pressure, and form a protective film of smooth layers that are almost as hard as a diamond. Those nanoparticles that are not grouted in, provide for homogenous heat distribution as well as a bearing-ball effect between the MCDP layers.