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RIKEN: Nanotech boosts next-gen Li-O2 batteries

Posted: 01 Nov 2013 ?? ?Print Version ?Bookmark and Share

Keywords:ruthenium oxide nanoparticle? Li-O2 batteries? lithium peroxide?

Researchers from RIKEN Byon Initiative Research Unit have found a way to make non-aqueous lithium-oxygen (Li-O2) batteries to be recharged more efficiently. They were able to do this by liberally applying catalytic ruthenium oxide (RuO2) nanoparticles to the batteries.

Non-aqueous Li-O2 batteries could store energy at densities rivaling gasoline. They also eliminate the heavy metal oxide cathodes used in conventional lithium-ion batteries to let lithium react directly with atmospheric oxygen on cathodes made from light, porous materials such as carbon nanotubes. When the battery discharges, lithium ions and oxygen gas react to form lithium peroxide (Li2O2) crystals on the cathode. To recharge the battery, the insulating Li2O2 crystals must be decomposeda reaction that requires significant recharge potentials, which can shorten battery life.

Hye Ryung Byon and Eda Yilmaz tried to improve the battery recharge efficiency by adding RuO2 nanoparticles to the carbon nanotube cathodes. "RuO2 has an optimal surface energy for oxygen adsorption and is a good catalyst for oxidation reactions," explained Yilmaz. However, because most ruthenium-based catalyses are performed in aqueous solutions, the team had to tread carefully to understand what would happen when RuO2 was surrounded by solid Li2O2.

Experiments revealed that the new RuO2/carbon nanotube composite considerably lowered the battery recharge potential compared to cathodes made from nanotubes alone. To understand why, the researchers collaborated with the Synchrotron Radiation Centre at Ritsumeikan University in Kyoto to characterise the discharge products using a number of techniques including x-ray absorption spectroscopy and electron microscopy. These tests revealed that the Li2O2 deposits on the RuO2-loaded nanotubes had an amorphous morphology quite unlike that seen in any other Li-O2 battery system.

The electron microscopy images showed that Li2O2 particles that formed on the bare nanotube cathodes had large, halo-shaped crystals. On the RuO2/carbon nanotube cathodes, however, a formless layer of Li2O2 coated the entire nanotube. The team notes that this Li2O2 layer has a large contact area with the conducting carbon nanotube cathode. Consequently, Li2O2 decomposition can be achieved with less energy, resulting in improved battery efficiency.

"This is one of the first studies showing how catalysts affect non-aqueous Li-O2 batteries. Until now there has been little focus on the impact of Li2O2 structure on battery performance," noted Byon. "This research might act as a guideline for future alternative approaches.

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