Researchers increase storage, efficiency and durability of capacitors

Researchers increase storage, efficiency and durability of capacitors
Design of multilayer capacitor according to design rules for optimizing the breakdown field and energy storage capacity in the BZT/BST multilayer system. Credit: Advanced Materials (2024). DOI: 10.1002/adma.202402070

Pacemakers, defibrillators, radar technology and electric vehicles all need electrical components called capacitors that can store and release a lot of energy in a matter of a few microseconds. Researchers at the University of Twente have recently found a way to increase these capacitors’ storage, efficiency and durability.

The findings are published in the journal Advanced Materials.

Pacemakers are medical devices that ensure that someone’s heart beats the way it should. If the heart rhythm is off, the pacemaker delivers a surge of electricity to bring the heart back into rhythm. The pacemaker takes effort into account and delivers faster pulses when needed. For example, when you’re exercising. For these electric pulses, the pacemaker needs a capacitor to charge and discharge rapidly. This provides a high enough electric charge to reset the heart.

Researcher Minh Duc Nguyen and his colleagues worked on a new design strategy for these capacitors to improve their energy storage, decrease the amount of energy lost every time it is charged or discharged, and increase the number of times they can reliably charge and discharge. “It needs to keep up with your heartbeat, so it should be able to charge and discharge up to billions of times. Otherwise, you’ll have to replace the pacemaker every few months,” explains Nguyen.

Nguyen and his team work on a type of capacitor that uses multiple thin layers of different materials. By adding layers they were able to increase the efficiency to more than 90%. This means it loses less than 10% of the electric charge used for charging. That is two times less energy loss compared to the usual designs. It functions in a wide temperature range of 25°C–200°C and can charge and discharge up to 10 billion times. Enough to do it once every second for more than 300 years.

The researchers deduced design optimization rules for the combination of materials they used. “These rules are expected also to be useful for optimizing other multilayer systems and are therefore very relevant for further increasing the energy storage density of capacitors,” they write in their publication. This paves the way for even better capacitors.

More information:
–Minh D. Nguyen et al, Toward Design Rules for Multilayer Ferroelectric Energy Storage Capacitors – A Study Based on Lead‐Free and Relaxor‐Ferroelectric/Paraelectric Multilayer Devices, Advanced Materials (2024). DOI: 10.1002/adma.202402070

Journal information:Advanced Materials
Provided by
University of Twente

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Researchers increase storage, efficiency and durability of capacitors (2024, April 25)
retrieved 26 April 2024
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