Researchers at Georgia Tech ave made an important breakthrough in battery technology. They’ve developed a new method that allows solid-state batteries to operate under reduced pressure. This discovery could lead to batteries that are safer, more efficient, and longer-lasting, ideal for devices like smartphones, electric vehicles, and portable tools.
Currently, most modern devices rely on lithium-ion batteries. While these batteries are widely used due to their power and dependability, they come with certain risks. Their liquid-based components can overheat and, in rare cases, catch fire. Additionally, they don’t store enough energy for some high-demand uses, like long-distance electric cars. Because of this, scientists have been exploring alternatives for years.
Solid-state batteries are considered a promising replacement. Unlike traditional batteries, they use a solid material instead of liquid to move lithium ions. This makes them less likely to catch fire and allows for more energy storage. However, these batteries typically require high pressure to maintain good contact between the materials inside, often needing heavy metal plates that add bulk and weight.
That’s where the Georgia Tech team stepped in. Led by Professor Matthew McDowell and research scientist Sun Geun Yoon, the researchers created a new design by blending lithium metal with a softer metal; sodium. While sodium doesn’t take part in the battery’s energy production, its softness makes it easier for the lithium to stay connected to the solid electrolyte. As a result, the battery can function properly with much less pressure.
Sodium’s softness is actually a key advantage. It’s so soft that you can press it with a gloved finger and leave a mark. Inside the battery, this flexibility helps the materials stay in contact even as they expand and shift during use.
To better understand how this works, the scientists used a concept from biology known as morphogenesis, which refers to how living tissues change shape in response to their environment. Though rarely applied in materials science, this concept helped explain how the lithium-sodium combination adjusts its structure as the battery operates.
The research team has already applied for a patent on this innovative design. If it proves successful in further testing, the technology could lead to devices that run longer on a single charge; imagine phones lasting for days or electric cars traveling over 500 miles without needing to recharge. While more development is needed, this marks an exciting step forward in making advanced, solid-state batteries more practical for everyday use.
Other companies like QuantumScape Corp. (NYSE: QS) have almost commercialized their solid-state battery innovations, so the competition in this space could quickly ramp up in the coming years.
About BillionDollarClub
BillionDollarClub (“BDC”) is a specialized communications platform with a focus on the biggest and brightest companies covered by IBN. It is one of 70+ brands within the Dynamic Brand Portfolio @ IBN that delivers: (1) access to a vast network of wire solutions via InvestorWire to efficiently and effectively reach a myriad of target markets, demographics and diverse industries; (2) article and editorial syndication to 5,000+ outlets; (3) enhanced press release enhancement to ensure maximum impact; (4) social media distribution via IBN to millions of social media followers; and (5) a full array of tailored corporate communications solutions. With broad reach and a seasoned team of contributing journalists and writers, BDC is uniquely positioned to best serve private and public companies that want to reach a wide audience of investors, influencers, consumers, journalists, and the general public. By cutting through the overload of information in today’s market, BDC brings its clients unparalleled recognition and brand awareness.
BDC is where breaking news, insightful content and actionable information converge.
To receive SMS alerts from BillionDollarClub, text “Billion” to 888-902-4192 (U.S. Mobile Phones Only)
For more information, please visit https://www.BillionDollarClub.com
Please see full terms of use and disclaimers on the BillionDollarClub website applicable to all content provided by BDC, wherever published or re-published: https://www.BillionDollarClub.com/Disclaimer
BillionDollarClub
Los Angeles, CA
www.BillionDollarClub.com
310.299.1717 Office
Editor@BillionDollarClub.com
BillionDollarClub is powered by IBN
