Around 2.2 billion people do not have access to clean drinking water, although two thirds of the earth is covered with water.However, more than 97 percent of it is inedible salt water.So drinking water is a very rare commodity on earth.However, drinking water can be obtained from salt water.Polymers can help.
Researchers in the College of Science have developed a material that is up to 40 times faster in desalinating small batches of water than other materials available today.
Guoliang "Greg" Liu, an assistant professor in the Department of Chemistry, has been researching the design and synthesis of porous carbon fibers for the last several years. The material is composed of long, fibrous strands of carbon with uniform mesopores of approximately 10 nanometers.
Liu sees the primary application of his porous carbon fibers in the automotive industry, where similar, but less efficient, materials are already used as the external shells of some luxury cars. Now, Liu reports a new application for this wonder material: capacitive desalination.
"Because of the high surface area of the porous carbon fibers, we can store a lot of ions," said Liu, who is also an affiliated faculty member of the Macromolecules Innovation Institute. "Because of the interconnected porous network, the ion movement is very fast inside the pores."
The most well-known method of desalination is reverse osmosis, in which seawater is forced through a semi-permeable membrane to separate salts from water. Liu said the materials and process in reverse osmosis are relatively mature now, and this energy-intensive process is efficient at treating large quantities of water. Capacitive desalination using porous carbon fibers, on the other hand, requires much less energy for treating water with low salinity.
"The advantage of our process is that we can have much faster, much higher capacity, and more energy efficiency at this concentration range," Liu said. "Under our experimental conditions of around 500 milligrams (of salt) per liter, it's going to be way more expensive if you use other means because you're trying to get a little bit of salt out of the water."
Tianyu Liu, a postdoctoral research associate in the Liu Lab, served as the first author in an article detailing this work published in Science Advances.
He said the process was simple: he placed two pieces of porous carbon fibers into a saline solution, and then he applied a voltage through the fibers. This applied voltage created an electrostatic force that naturally attracted the salt ions out of the water.
"Capacitive desalination treats the water using electrodes with high surface areas and electrical conductivity," Tianyu Liu said. "The potential you apply reduces the ion concentration in water, and then you discharge the ions to regenerate the electrodes. These processes are repeatable with negligible loss of desalination capacity."
Tianyu Liu notes that while this material has shown great results, the research team has only shown a proof of concept for desalination. They are looking for engineering laboratories on campus and across the country to help scale up this research and design large-scale desalination cells.
This work is conducted in collaboration with Prof. Zhen "Jason" He, a former faculty member of the Department of Civil and Environmental Engineering at Virginia Tech, and now a faculty member at McKelvey School of Engineering at Washington University in St. Louis.
Greg Liu's porous carbon fibers are promising for end applications as diverse as batteries, cars, and desalination, and he's looking to see what else it can do.
"We hit the jackpot," Greg Liu said. "We want to explore all of the advantages of this material. This material has many great properties, and there are so many things we can do."