Material has better properties than past sulfur-based batteries

University of Arizona(UA)biochemistry/chemistryprofessorJeffrey Pyunand his doctoral studentJared Griebel have published an intriguing study, offering up a new sulfur-based polymer which transforms cheap, abundant waste sulfur -- the kind that'sfiltered out of burnt fossil fuel exhaustto preventacid rain pollution-- into a polymer.

I. From Trash to Treasure

The new polymer can be used both structurally and in polymeric battery electrodes.

The new plastic is light and rugged. The pair bill it as highly promising when paired with liquid lithium in battery cells. The invention comes at an opportune time -- sulfur production is outpacing stock. At North America's largest oil refineries, such asFt. McMurray in Alberta, refiners have taken to storing powder sulfur in dusty yellow "mountains" waiting for somebody to come up for a clever use for it.

According to Jered Griebel's calculations, 0.5 lb of sulfur is produced per every 19 gallons of refined gasoline. While some of that waste is used to make sulfuric acid, much of it is piling up unused. Professor Pyun bills the resource as the "garbage of transportation",adding[press release], "There's so much of it we don't know what to do with it."

The production of the new sulfur polymer begins with liquefying the sulfur at high temperatures and pressures (sulfur has a boiling point of roughly 441 degrees Celsius under standard temperatures) via inverse vulcanization. The researchers had to hunt down special materials -- most don't like to blend with the molten sulfur.

II. First Time's the Charm

Ironically, the first material tried of 20 potential candidates worked out the best by far; the rest proved duds. The resulting polymer is between 50 and 90 percent sulfur by weight.

The batteries made from the polymer have better capacity retention (how long charge is preserved) than past Li-S batteries. They also have a higher specific capacity(823 mAh/g at 100 cycles) than past designs, meaning they could store more energy. The relative stability of the Li-S sulfur polymer battery could make them an attractive target for automotive, aerospace, and personal electronics uses where traditional lithium ion batteries havesuffered flammability issues.

Link:
Cheap, Abundant Waste Sulfur Made Into New Polymer for Plastics, Batteries