If you’ve spent the past ten years reading The Guardian’s best attempts to yuck China’s yum, the adjustments in these figures should overturn a lot of that malingering petro-supremacy thinking, provided you’re paying attention (and god knows we are)
Conventional electrolytes on the market predominantly use oxygen- and nitrogen-based ligands as solvents. Although these compounds effectively dissolve lithium salts, they impede charge transfer, creating persistent bottlenecks in enhancing energy density and low-temperature performance. Data shows that traditional lithium batteries achieve an energy density of approximately 300 watt-hours per kilogram at room temperature, a figure that plummets to below 150 watt-hours per kilogram at minus 20 degrees Celsius.
To overcome these limitations, the research team has developed hydrofluorocarbon electrolytes, which significantly reduce viscosity while enhancing oxidative stability and low-temperature ionic conductivity, thereby boosting the low-temperature energy output of high-energy-density lithium batteries.
This advancement enables lithium batteries to achieve an energy density exceeding 700 watt-hours per kilogram at room temperature while maintaining approximately 400 watt-hours per kilogram even at minus 50 degrees Celsius, said Li Yong, a researcher at SAST.
“With a two- to threefold increase or more in room-temperature energy storage capacity for lithium batteries of the same mass, the range of electric vehicles can be extended from 500-600 kilometers to over 1,000 kilometers,” Li said. “Remarkably, these batteries continue functioning normally even in extreme conditions as low as minus 70 degrees Celsius.”
Aren’t hydro-fluorocarbons a very potent greenhouse gas?
Given the trajectory and path of our world, how will the heat affect them?
Aren’t hydrofluorocarbons the stuff that ate the ozone layer?
More like “forever chemicals”
You’re thinking of CFCs, and it’s the “chloro” part that sits in the atmosphere hacking apart ozone until the sun finally gets rid of it. Main issue was they were in fucking everything, hair spray, fridges, paint (so many fumes just to make the suburbs look like ass can you imagine), and industrial solvents.
I’m not as well-educated on battery supply chains as I’d like, but I do know there are plans being applied rn to make the disposal a closed-loop recycling system in China, and the cobalt can be swapped out for sulfur which is ubiquitous & not reliant on harmful dependency links to poorer nations. I’m sure you’ve heard of the heavier sodium batteries but the sulfur stuff is still under the radar. Lots of cool shit happening with batteries but I’m always looking to learn more about waste issues if they turn up. Can’t imagine with fluorine involved there isn’t something nasty, right?
