In most lithium-ion batteries, the cathode contains cobalt. But cobalt is a scarce metal, found mostly in politically unstable countries, its extraction is hazardous for miners and generates toxic waste. And as demand for batteries globally keeps rising, so too will the cost of cobalt. Anne Trafton at MIT describes the development of an alternative cathode made of organic materials. Its structure is similar to graphite. It can conduct electricity … [Read more...]
“Flow Batteries” for grid-scale storage: modelling cheaper alternatives to Vanadium
Flow batteries are a promising new technology for grid storage. Rather than the standard batteries that store charge in a solid material, they use a solution to store that charge, making large-scale long-duration electricity storage much easier. Vanadium electrolytes have been the preferred choice so far, but affordable supplies are limited and a cheaper alternative will be needed for global scale-up, explains Nancy Stauffer at MIT who describes … [Read more...]
Plastic Solar Cells: OPV power conversion efficiency now reaches 18%
Don’t just think plastics are insulators. Two Nobel prizes were won by showing they can be semiconductors. That celebrated research opened the door to polymer-based solar cells. They are made in a lab from common elements, using processes established decades ago for ordinary household items like plastic wrap. A design strategy breakthrough led by NREL has now created an organic photovoltaic (OPV) solar cell with a record-breaking 18.07% power … [Read more...]