upsbatterycenter.com about us contact us
News about Energy Storage, Batteries, Climate Change and the Environment

Everything you want to know about batteries, and more!
You are at:»Battery Basics»Comparing Lithium-Sulfur & Lithium-ion Cells
Battery Basics

Comparing Lithium-Sulfur & Lithium-ion Cells

By No Comments
Google+ Pinterest LinkedIn Tumblr +
healing lithium-sulfur batteries with iodine
"Schematical Principle of a Lithium-Sulfur Battery

Lithium-ion technology is in a strong position globally. In fact it, and lead-acid batteries dominate the market. They almost make a perfect team. Solid lead-acid has been a favorite for its dependable power for over a century. Whereas lithium-ion has filled the gap created by new portable devices. However, when comparing lithium-sulfur with it, is does not appear ideal for electric cars and airplanes.

Comparing Lithium-Sulfur and Lithium-ion Technology

All battery cells in the lithium-ion stable exchange lithium-ions between their electrodes. In this way they can accept energy from an external source and store it. They can release this power into an electrical circuit when required. It’s like the tide, energy out and energy in.

That said lithium-ion cells have two inherent disadvantages. They overheat during charging,, or if something causes their electrodes to short-circuit. This only affects a few of them. However all lithium cells have limited storage capacity, and that’s becoming a problem. Hence researchers are exploring potential they discovered when comparing lithium-sulfur with them.

Lithium-Sulfur’s Major Advantages and Benefits

Lithium-sulfur battery cells offer four times more density than lithium-ion ones. That translates into a phone battery lasting four times longer, and an electric car traveling that much farther. Moreover, their catalytic element sulfur costs less than cobalt or manganese, on which the lithium-ion process depends.

However, weight becomes the most important benefit when comparing lithium-sulfur with lithium ion. The ability of energy to move an object depends on its mass because of forces of inertia. This benefit becomes particularly evident when designing electric aircraft. They must be able to travel farther across isolated regions with few places to land and recharge.

Moreover, a lighter aircraft means it can carry more passengers and cargo. The benefits for commercialization are obvious. We just need more investors with vision, and entrepreneurs to achieve it.

Related

Bye to Lithium Ion Says Denver Disruptor

Lithium-Sulfur Batteries Tap Transport’s Door

Preview Image: Schematical Principle of a Lithium-Sulfur Battery

Video Share Link: https://youtu.be/M789Jfc8q3I

Share.

About Author

I have been writing about batteries and energy storage for more than ten years, and have published over 4,000 articles on this website. During that time, I have researched developments across lead-acid, lithium-ion, sodium-ion, flow batteries, and emerging energy-storage technologies. My goal is to explain complex battery concepts in clear, practical language that anyone can understand. My writing career began unexpectedly after leaving the corporate world. What started as a search for a new direction gradually became a fascination with batteries, renewable energy, and the science that powers modern life. Writing may not have made me wealthy, but it has given me the opportunity to explore an industry that continues to evolve in remarkable ways.

Related Posts

Leave A Reply