You know how rejuvenating a bath feels after a long day of work? Almost like you’re renewed. Turns out that’s not exclusive to humans. Scientists at Cornell University have developed an electrochemical bath that restores spent lithium-ion batteries to nearly 100% capacity.

Unlike conventional battery recycling methods that involve the complete physical destruction of batteries, followed by complex, energy-intensive recovery processes to extract critical battery-making materials, the scientists’ method recycles lithium-ion battery electrodes directly. Rather than breaking down structurally intact electrodes to extract materials that will make other electrodes, their approach regenerates the existing electrodes using an electrochemical solution.

The researchers say this method restored batteries to 95% of their original capacity, and even helped recycled batteries last longer. According to them, the method could also slash recycling costs by 56% while being more environmentally friendly.

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A Yale-led research team has developed the first standalone device that produces the liquid fuel methanol using only sunlight, water, and carbon dioxide as the ingredients.

The artificial “leaf,” like its namesake in nature, is a chemistry marvel. It brings the scientific mimicry of photosynthesis — the process of converting sunlight and water into chemical energy — to a new level, converting sunlight to methanol 32 times more efficiently than the previous conversion record for artificial leaf technologies that generate alcohol products.