Jan. 9, 2019
Schulich team develops 'super sponge' for oil spill cleanup
They call it 鈥渕agnetic boron nitride (MBN)鈥 but what a team of engineering researchers at the 草莓污视频导航 has developed, to put it simply, is a super sponge for soaking up aquatic oil spills.
Not only does the non-toxic biodegradable material, consisting of magnetic nanostructured white graphene, absorb crude oil at up to 53 times its own weight, it can also be reused over and over. And unlike traditional clean-up technologies, the groundbreaking nanomaterial allows for salvage of spilled oil.
鈥淭he current technologies for oil spill cleanup only focus on impact mitigation and ignore crude oil recovery,鈥 explains Dr. Nashaat Nassar, PhD, an associate professor at the Schulich School of Engineering.
鈥淭here is a need for an innovative technology to generate a high-performance material that can be used to both clean water and recover crude oil for further use after a crude oil spill.鈥
Non-toxic breakthrough
Nassar鈥檚 team has published details of their success in the聽Industrial and Engineering Chemistry Research聽journal, and the paper follows a precursor study from earlier in 2018, in which the Nassar team showed MBN was non-toxic, a vital factor when using 聽nanomaterials.
With environmental concerns steering decisions on oil recovery and transportation, developing a practical produced, highly-effective material for marine spills is both timely and essential, says聽Afif Hethnawi, a PhD student of Nassar鈥檚 team.
鈥淎n average of about five million tons of crude oil are transported across the seas around the world annually and there is a significant risk of spills from either mechanical failure or human error,鈥 explains Hethnawi.
鈥淭hrough the structural atomic engineering of MBN, with its innovative features and our understanding of the mechanism involved in crude oil sorption, we are targeting to improve the technology used in crude oil spill recovery," adds Dr. Gerardo Vitale, PhD, a research associate on Nassar鈥檚 team
Magnets proved properties
Tests on the material relied on magnets instead of physical tools to remove the MBN and oil from the water, to show the absorption was strictly the result of the nanostructured white graphene, and not crude sticking to scoops or other equipment.
Placed in water where an oil spill has taken place, the hydrophobic MBN repels water while attracting the oil, at which point the MBN surrounds and absorbs it.
鈥淚t鈥檚 a little bit like a hotdog bun wrapped around a hotdog,鈥 explains Nassar.
Oil can be reused
Once the oil has been soaked up, magnets are lowered close to the surface of the water, lifting the magnetic MBN and oil together, where it can be separated and the MBN reused.
While magnetic nanomaterials have been considered before for oil spill cleanup, biopersistence 鈥撀爐hat is, a material tending to remain inside a biological host 鈥撀爉ade the prospect too dangerous, due to the risk of disease like lung cancer and genetic damage to the lung.
With MBN having been shown to be biocompatible with humans and other organisms, that hurdle has now been overcome.聽Nassar says the new nanomaterial is ready for real-life applications in protecting the environment, and helping safeguard oil transport over water.
鈥淚f someone wants to start manufacturing this, it is ready to be used right now,鈥 he says.