Microwaved plastic increases lithium-sulphur battery lifespan

10 May 2018

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Purdue engineers have figured out a way to tackle plastic landfills while also improving batteries by putting ink-free plastic soaked in sulphur-containing solvent into a microwave, and then into batteries as a carbon scaffold.

Lithium- sulphur batteries have been hailed as the next generation of batteries to replace the current lithium ion variety. Lithium- sulphur batteries are cheaper and more energy-dense than lithium ions, which would be important characteristics in everything from electric vehicles to laptops.
But the knock on lithium-sulfur batteries to this point is that they don't last as long, being usable for about 100 charging cycles.
Purdue researchers have found a way to increase the lifespan in a process that has the added bonus of being a convenient way to recycle plastic. Their process, which was recently published in ACS Applied Materials and Interfaces, shows that putting sulphur-soaked plastic in a microwave, including transparent plastic bags, transforms the material into the ideal substance for increasing the lifespan of the forthcoming batteries to more than 200 charging-discharging cycles.
"No matter how many times you recycle plastic, that plastic stays on the earth," says Vilas Pol, associate professor in Purdue's School of Chemical Engineering. "We've been thinking of ways to get rid of it for a long time, and this is a way to at least add value."
The need to reduce landfills runs parallel to making lithium-sulfur batteries good enough for commercial use.
"Because lithium- sulphur batteries are getting more popular, we want to get a longer life sucked out of them," Pol said.
Low-density polyethylene plastic, which is used for packaging and comprises a big portion of plastic waste, helps address a long-standing issue with lithium-sulfur batteries — a phenomenon called the polysulphide shuttling effect that limits how long a battery can last between charges. 
Lithium-sulphur batteries, as their name suggests, have a lithium and a sulphur. When a current is applied, lithium ions migrate to the sulphur and a chemical reaction takes place to produce lithium sulphide. The byproduct of this reaction, polysulphide, tend to cross back over to the lithium side and prevent the migration of lithium ions to sulphur. This decreases the charge capacity of a battery as well as lifespan.
"The easiest way to block polysulphide is to place a physical barrier between lithium and sulphur," said Patrick Kim, a Purdue postdoc research associate in chemical engineering.
Previous studies had attempted making this barrier out of biomass, such as banana peels and pistachio shells, because the pores in biomass-derived carbon had the potential to catch polysulphide.
"Every material has its own benefit, but biomass is good to keep and can be used for other purposes," Pol said. "Waste plastic is really valueless and burdensome material."
Instead, researchers thought of how plastic might be incorporated into a carbon scaffold to suppress polysulphide shuttling in a battery. Past research had shown that low-density polyethylene plastic yields carbon when combined with sulfonated groups.
The researchers soaked a plastic bag into sulphur-containing solvent and put it in a microwave to cheaply provide the quick boost in temperature needed for transformation into low-density polyethylene. The heat promoted the sulphonation and carbonisation of the plastic and induced a higher density of pores for catching polysulphide. The low-density polyethylene plastic could then be made into a carbon scaffold to divide the lithium and sulphur halves of a battery coin cell.
"The plastic-derived carbon from this process includes a sulphonate group with a negative charge, which is also what polysulphide has," Kim said. Sulfonated low-density polyethylene made into a carbon scaffold, therefore, suppressed polysulfide by having a similar chemical structure.
"This is the first step for improving the capacity retention of the battery," Pol said. "The next step is fabricating a bigger-sized battery utilizing this concept.

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