Hemp is back, man, and more energizing than ever. David Mitlin, then at the University of Alberta and now at Clarkson University, has developed a method for making supercapacitors out of hemp that is not only much cheaper than graphene (the cream of the crop as far as organic conductors go), but also outperformed standard devices by nearly 200%.
In a press release from the American Chemical Society, Mitlin gives the best quote possible on his research: “We’ve pretty much figured out the secret sauce of it. The trick is to really understand the structure of a starter material and to tune how it’s processed to give you what would rightfully be called amazing properties.” Right on.
To make the supercapacitors, his group heated hemp waste at 180 °C (~350 °F) for a day to get a nice char going, then blasted it at 800 °C (~1470 °F) with a little potassium hydroxide. That final burn turned the char into carbon nanosheets (as so nicely depicted in the above picture from the American Society of Mechanical Engineers). The hemp precursor left a lasting impression on the nanosheets, giving them the unique molecular structure that Mitlin claims is key to his device performance. The sheets were riddled with holes 2–5 nanometers in diameter, making nice paths for charges to move in and out.
Yury Gogotsi, materials scientist at Drexel University, in a comment to Chemical & Engineering News, says that scaling up the process may be difficult (read: costly), what with the high temperatures and day-long heating process.
But that’s just, like, his opinion, man.