:quality(80)/p7i.vogel.de/wcms/71/fd/71fdcc22d9a9bd2f42985f692c4aefa2/0128924236v2.jpeg "Wolfspeed reported a milestone in silicon carbide manufacturing with the successful production of a single-crystal 300mm SiC wafer. (symbolic image) (Source: © Four888 - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/94/54/94548eaecd020681e558d563bc48ba1d/0128926221v2.jpeg "Harbinger is leveraging its electrification platform technology and battery manufacturing expertise to bring energy storage to Airstream travel trailers. (Source: Harbinger)")
:quality(80)/p7i.vogel.de/wcms/29/99/2999bb9af245dd31f4c837c1d9359046/0128923137v2.jpeg "Trench SiC MOSFET bare dies enable compact, high-performance power semiconductor solutions. (symbolic image) (Source: © ryanking999 - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/10/78/107856328ef320cc081bf88e0baf95e8/0128685487v2.jpeg "Integrated magnetics enable compact and reliable power conversion for space systems. (Source: Exxelia)")
:quality(80)/p7i.vogel.de/wcms/67/62/676279913d77e1db48eb5cbe9be4c767/0128937895v2.jpeg "(Bild: © WrightStudio - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/0f/a2/0fa2b5bdc21e408fd73e637d226d5210/0128681532v2.jpeg "Symbolic Image: Wind and solar power lead Germany’s electricity generation in 2025, marking a continued shift toward renewable energy. (Source: © koosy - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/4f/6f/4f6faf0ca6f748a2967d6b5bba7c88e1/0128682406v2.jpeg "Symbolic Image: SoCs for automotive applications enable enhanced performance in advanced driver-assistance systems. (Source: © Sodapeaw - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/ad/52/ad52f7b5542eff15ba54ec354d31b50d/0128681536v4.jpeg "Symbolic Image: This transaction brings battery technology development, manufacturing strategy, and capital-market access together within a single holding structure. (Source: © Sarut - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/1e/9c/1e9c45d6fcf2fb48dc47756e4cb20174/0128931043v2.jpeg "Syensqo and Axens have launched Argylium to support the development and scale-up of solid-state battery materials in Europe. (symbolic image) (Source: © Anastasiia - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/8b/42/8b4271e1bedea432ab03c83959e30431/0128818204v2.jpeg "Rows of batteries on Kauai island provide more than just power: They stabilize the grid. A project between the Kauai Island Utility Cooperative, NLR, and several more partners showed that electronics can offer equal grid strength to spinning resources. (Source: Connor O’Neil, National Laboratory of the Rockies)")
:quality(80)/p7i.vogel.de/wcms/87/5a/875a8fa395c1eec9677e075fae7f5e8e/0128793884v2.jpeg "MEMS-based hot-switched power panels enable compact, high-performance switching solutions for modern electronics. (Symbolic image) (Source: © Best - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/2f/93/2f9364112e8c6ff38c26f9ba34d0f692/0128791306v2.jpeg "Scalable, high-performance SiC MOSFET solutions enable faster development and improved efficiency in power electronics. (Symbolic image) (Source: © metamorworks - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/3c/d1/3cd1cacbceb792ba63727199c61ca434/0127801860v2.jpeg "Thanks to cloud technology, users can collaborate on projects from anywhere and always have access to the latest planning data. (Source: SIEMENS)")
:quality(80)/p7i.vogel.de/wcms/5a/a0/5aa0436498af618297961fd54ab36cdf/0126290792v2.jpeg "Siemens accelerates student-led semiconductor innovation across Europe’s leading technical universities through Cre8Ventures’ Open Higher Education Program developed in collaboration with Arm and University of Southampton (Source: Siemens Digital Industries Software)")
:quality(80)/p7i.vogel.de/wcms/cb/30/cb30ebdca7fcaea281749cb396654eb3/0124716339v2.jpeg "Rolls-Royce unveils Battery Analytics for its mtu EnergyPack, offering real-time insights, predictive maintenance, and enhanced cybersecurity to boost performance and longevity. (Source: Rolls-Royce plc)")
:quality(80)/p7i.vogel.de/wcms/0b/b4/0bb4cdfa862043eac04c6a195e59b3e0/0124131782v2.jpeg "Siemens has completed the acquisition of DownStream Technologies, a leading provider of manufacturing data preparation solutions for printed circuit board design. (Source: Siemens)")
BATTERS SAFETY Safer batteries, reliable power: Guiding research for next-generation energy storage
Related Vendors
:fill(fff,0)/p7i.vogel.de/companies/62/b9/62b980cddf5d6/ceramtec.png "ceramtec (www.ceramtec-group.com)")
:fill(fff,0)/p7i.vogel.de/companies/61/dc/61dc0e8c2e420/dspace-logo-1000px-220107.png "dspace-logo-1000px-220107 (dSPACE GmbH)"){kind=logo}
:fill(fff,0)/p7i.vogel.de/companies/68/c2/68c2b622b43e1/logo.jpeg "logo (IQ Evolution GmbH)"){kind=logo}
Lithium-ion batteries are quietly powering much of modern America. Demand for these indispensable energy storage solutions continues to skyrocket, prompting energy experts to explore next-generation designs for higher-performing technologies. However, safety is paramount to ensuring the successful deployment of these systems.
From pockets to warehouses and vital infrastructure, lithium-ion batteries quietly keep much of America running today.
“Over the years, battery researchers and engineers have developed a deep understanding of the factors that lead to failure in conventional lithium-ion batteries. However, the behavior of next-gen batteries is not yet well understood,” said Donal Finegan, a senior energy storage scientist at NREL. “We are seeing key differences in the kinetics, toxicity, mechanical robustness, and fire-suppression strategies for new materials. The better we understand these risks, the safer we can design and prepare battery systems of the future.”
A recent Nature perspective authored by NREL researchers including Finegan takes a closer look at the current landscape of battery safety research, emphasizing new risks and opportunities of up-and-coming energy storage technologies. In addition, this perspective proposes a strategic approach to evaluating battery safety at the electrode, pack, and cell level. This rigorous process considers different conditions—such as limiting oxygen index, abuse conditions, state of charge, and cycle history—with respect to benchmark battery behavior.
A safety-first approach to battery research
NREL is a global battery safety researcher, offering cutting-edge characterization, advanced machine learning, and multiscale modeling to evaluate energy storage systems. Researchers work closely with industry innovators to share knowledge and access to lab-scale capabilities, overcoming challenges to bring new technologies to the market.
“Battery safety research is a cornerstone of our work at NREL and crucial to strengthening America’s energy infrastructure,” said NREL Senior Energy Storage Engineer and Manager Matt Keyser. “Safer batteries increase energy availability to power everything from consumer electronics to national security systems. However, we need a targeted strategy to expand battery safety research to support the development and adoption of new battery technologies.”
NREL implements a rigorous process to evaluate the safety of battery designs, employing a holistic approach to characterize cells and materials to understand their responses to various abuse conditions throughout their lifetime. Insights from battery safety research are crucial to refining cell designs, determining safe operating systems, and standardizing practices to guide first responders in handling battery hazards.
While some of these changes open the door to safer, more resilient, and lighter battery systems, they also bring challenges, such as managing rapid gas release, toxic byproducts, and extreme thermal reactions. Established methods for quantifying hazards of traditional lithium-ion batteries can be directly applied to next-gen cells, but there are other areas that require additional attention.
:quality(80)/p7i.vogel.de/wcms/59/29/59299106ab669d72894f37dbd44d310f/0126697082v2.jpeg "Empa researchers working with the Aurora robotic platform, which enables fully automated battery experiments. (Source: Empa)")
BATTERIES
Empa robot delivers largest open dataset for battery research
It can take years to scale research from new materials to battery pack-level testing, but recent breakthroughs in modeling and artificial intelligence can accelerate the process and advance our understanding of new materials. These techniques uncover new insights into the safety of emerging battery designs, predicting how they will behave in different applications, such as grid-scale storage. NREL’s expertise in this area enables researchers to evaluate data across length scales, from microscopic samples to larger-format cell sizes, and explain differences in cell safety behaviors as a function of their size and abuse condition.
“We’ve developed modeling strategies that bridge the gap between safety data generated at the material level and the behavior of large commercial batteries,” Finegan said. “Artificial intelligence will play a central role in quickly predicting how batteries will behave under different conditions in real-world scenarios to evaluate the safety of future battery designs.”
(ID:50614209)
:quality(80)/p7i.vogel.de/wcms/82/14/82142acb974664ccbf755d77be6fe881/0126347614v2.jpeg "Potassium-ion batteries, with their abundant materials and low costs, could revolutionize renewable energy storage by providing an alternative to lithium-ion technology. (Source: © IBEX.Media - stock.adobe.com)")
:quality(80)/p7i.vogel.de/wcms/c9/83/c98342208a1a08d2a70a9d9210ec52cf/0127808597v2.jpeg "Symbolic image: Lignin based biopolymers powering the future of green energy storage. (Source: © zuriya - stock.adobe.com)")