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UBCO professor working to create renewable, energy dense and safer batteries

The future of batteries

A UBC Okanagan professor is working to manufacture renewable, energy dense and safe batteries as the world continues to adopt clean energy.

Creating sustainable storage systems is a challenge when getting electric vehicles on the road and getting intermittent renewable energy resources into society.

Assistant professor with UBC Okanagan’s School of Engineering Dr. Jian Liu runs the Advanced Materials for Energy Storage Lab where he’s working to develop next-generation battery technologies.

His team is working on renewable technologies while also aiming to reduce greenhouse gas emissions and increase public awareness and education.

In a recently published article in the Journal of Power Sources, Liu talks about creating zinc-ion batteries. These safe batteries provide high energy densities at low costs.

Liu has answered some questions in regards to batteries and their development in society.

In layperson terms, how does a battery work?

“A battery works by moving electrons and ions back and forward between negative and positive electrodes via different paths. Electrons diffuse through external circuits to power up devices, while ions mitigate the energy inside the battery. During the charging process, electrons and ions move from the positive electrode to the negative electrode with energy stored and visa-versa during the discharge process with energy released.”

We are all familiar with the batteries we use in our electronics and electric vehicles. How are batteries changing?

“Over the past decades, we have witnessed the rapid adoption of rechargeable lithium-ion batteries in various applications, ranging from portable electronics to electric vehicles and grid storage. The dramatically increasing demand requires rechargeable batteries to be smaller, more energy-dense, safer and cheaper. And at the same time, this demand drives the current evolution in new battery chemistry, such as solid-state batteries, aqueous zinc-ion batteries, etc.”

Are there other applications where batteries will soon become commonplace? For example, aviation?

“Rechargeable batteries have been increasingly used in electric flights and marine applications to reduce carbon footprints. They are also used in wireless and intelligent devices, such as health monitoring sensors, Internet of Things and life-saving devices. Moreover, rechargeable batteries are popularly used in electric bicycles.”

How is battery technology becoming more sustainable?

“The development of efficient and cost-effective battery recycling processes is a key to close the loop for battery technology and make it sustainable. Current batteries use many elements with limited reserves, such as lithium, cobalt and nickel. Determining how to properly recycle the valued components from retired vehicle batteries is an urgent task to avoid potential adverse environmental impacts from battery disposal.”

“Currently, if you want batteries to hold a charge for longer, I recommend charging them at room temperature when the remaining battery level is about 20 per cent. This will also improve the lifetime of batteries, meaning they don’t need to be recycled as often.”

What’s the next big thing on the horizon?

“The solid-state battery is one of the impending battery innovations on the horizon to bring breakthroughs in energy storage sectors. It will fundamentally address the safety issue associated with lithium-ion batteries, such as overheating or exploding, due to the use of solid electrolytes. This can potentially increase the driving range of electric vehicles beyond 500 Km per charge. Aqueous zinc-ion batteries are also promising safe and low-cost energy storage solutions for large-scale grid storage to meet the increasing need from intermittent renewable energy, such as wind and solar.”



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