Dual additive boost for low cost lithium ion capacitors

June 06, 2019 //By Nick Flaherty
Dual additives boost production of low cost lithium ion capacitors
Researchers in France and Germany have developed a low-cost, simple, and efficient way to use lithium ion capacitors to store energy.

Researchers from l’Institut des matériaux Jean Rouxel (CNRS/Université de Nantes), in collaboration with Münster Electrochemical Energy Technology (University of Münster, Germany), combined two additives instead of one to support the production of lithium ion capacitors, boosting the energy density.

There are two main energy storage techniques in renewable energy and e-mobility. Lithium-ion batteries have the advantage of large storage capacity while capacitors have less capacity but can charge and uncharge very rapidly a great number of times. Lithium-ion capacitors (LIC) combine the best of both worlds.

The materials that make up lithium-ion capacitors do not contain lithium ions, unlike batteries. It is therefore necessary to proceed with a prelithiation stage in order to add them, so that the device can function.

Two strategies are used today: either one of the capacitor’s constituent materials is prelithiated before its integration, or an additive high in lithium ions will redistribute them among the capacitor’s materials during the first charge. Yet these methods are costly and complex, and can diminish the device’s capacity.

The majority of prelithiation additives available deteriorate when in contact with the air and/or the solvents used to manufacture lithium ion capacitors. This means that even though some of the solutions that have been proposed function today, there is no approach that is high-performance, sturdy, simple, and inexpensive.

The researchers met this challenge by using not just one but two additives coupled through consecutive chemical reactions. Their analysis shows that the primary barrier for earlier approaches was their use of a single additive, which had to not only provide lithium ions and electrons, but also meet all of the conditions of price, chemical stability, and performance.

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