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Nanostructured Electrodes from a Molybdenum Disulfide-Carbon Composite may provide Practical Fast-Charging Batteries

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Nanostructured Electrodes from a Molybdenum Disulfide-Carbon Composite may provide Practical Fast-Charging Batteries

Nanostructured Electrodes from a Molybdenum Disulfide-Carbon Composite may provide Practical Fast-Charging Batteries

Electrodes are critical parts of every battery architecture — charge too fast, and you can decrease the charge-discharge cycle life or damage the battery so it won’t charge anymore. Scientists have built a new design and chemistry for electrodes. Their design involves advanced, nanostructured electrodes containing molybdenum disulfide and carbon nanofibers (Advanced Energy Materials, “Pseudocapacitive charge storage in thick composite MoS2 nanocrystal-based electrodes”). These composite materials have internal atomic-scale pathways. These paths are for both fast ion and electron transport, allowing for fast charging.

Fast Charge batteries vid47065

Battery electrodes made of a molybdenum disulfide nanocrystal composite have internal pathways to allow lithium ions to move quickly through the electrode, speeding up the rate that the battery can charge. The key features in the structure that enable the flow of the lithium ions are the small, 20-40 nanometer, diameter of the nanocrystals (in contrast, human hairs are about 100,000 nanometers in diameter) coupled with the porosity and planar lamellar pathways shown in the electron micrograph. (Image: Sarah Tolbert, University of California, Los Angeles) 
The new battery electrodes provide several benefits. The electrodes allow fast charging. They also have stable charge/discharge behavior, so the batteries last longer. These electrodes show promise for practical electrical energy storage systems.
New battery electrodes based on nanostructured molybdenum disulfide combine the ability to charge in seconds with high capacity and long cycle life. Typical lithium-ion batteries charge slowly due to slow diffusion of lithium ions within the solid electrode.
Another type of energy storage device (a.k.a., pseudocapacitors), which has similarities to the capacitors found in common electrical circuits, speeds up the charging process by using reactions at or near the electrode surface, thus avoiding slow solid-state diffusion pathways.
Nanostructured electrodes allow the creation of large surface areas so that the battery can work more like a pseudocapacitor. In this work at the University of California, Los Angeles, scientists made nanostructured electrodes from a molybdenum disulfide-carbon composite.
Many electrodes are based on metal oxides, but because sulfur more weakly interacts with lithium than oxygen, lithium atoms can move more freely in the metal sulfide than the metal oxide. The result is a battery electrode that shows high capacity and very fast charging times.
The novel electrodes deliver specific capacities of 90 mAh/g (about half that of a typical lithium-ion battery cathode) charging in less than 20 seconds, and retain over 80 percent of their original capacity after 3,000 charge/discharge cycles. Capacities of greater than 180 mAh/g (similar to cathodes in conventional lithium-ion cells) are achieved at slower charging rates.
The results have exciting implications for the development of fast-charging energy storage systems that could replace traditional lithium-ion batteries.
Source: U.S. Department of Energy, Office of Science

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