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Briefs Energy
Spray Drying Tech Used in Instant Coffee Applied to High-Capacity Battery Production
The Korea Electrotechnology Research Institute (KERI) and the Korea Institute of Materials Science have jointly developed spray drying technology-based high-performance dry electrode manufacturing technology for the realization of high-capacity secondary batteries. Read on to learn more.
Briefs Energy
How Can We Optimize Solid-State Batteries? Try Asking AI
Researchers at Tohoku University developed a data-driven AI framework that points out potential solid-state electrolyte candidates that could be “the one” to create an ideal sustainable energy solution. Read on to learn more.
Briefs Energy
Diagnosing a Dud May Lead to a Better Battery
A team of chemists led by Feng Lin and Louis Madsen found a way to see into battery interfaces, which are tight, tricky spots buried deep inside the cell. Read on to learn what this means.
Briefs Energy
Smoothing Over Rough Edges in Batteries
Battery performance suffers over time, like when a phone needs to be charged more frequently after years of use. A thin film that forms on the metal anode when the battery is charging and discharging plays a part in that issue. This film has benefits, but its roughness gradually wears the battery down. Researchers have discovered a temporary version of this film that appears at rapid discharge speeds and dissolves back into the battery when the process finishes. Read on to learn more.
Products Energy
New Products
See the new products, including Shin-Etsu Silicones of America's SDP-6560 A/B liquid-dispensed gap filling, a non-adhesive curing silicone thermal interface material; Navitas Semiconductor's new portfolio of Gen-3 ‘Fast’ (G3F) 650 V SiC MOSFETs; Freudenberg Sealing Technologies' optimized sealing material for e-mobility applications; and more.
On-Demand Webinars Power
Shipped and Shocking: Battery Safety in Logistics and Storage
Battery safety doesn’t end at the test bench or on the factory floor. Significant risks arise during storage, transportation, and even temporary charging — all of which are...
On-Demand Webinars Power
Build Better Battery Energy Storage Systems Using Adhesive Technologies
Capturing renewable energy during sunny or windy periods is critical to supporting power grid stability and resiliency while reducing reliance on fossil fuels. Battery...
Briefs Design
A Successful Catalyst Design for Advanced Zinc-Iodine Batteries
Aqueous zinc-ion batteries have attracted extensive attention due to their high safety, abundant reserves, and environmental friendliness. However, the low electrical conductivity of iodine hinders the redox conversion for an efficient energy storage process with zinc. Read on to learn how a research team addressed the existing issues in Zn-I2 batteries.
Articles Energy
Testing Times: Understanding the Impact of Climatic Conditions on EV Charging Times
Charging times have become a hot topic among automotive OEMs and consumers. Premium cars, in particular, are increasingly defined by their technology. A slick charging experience is one of the ways that premium manufacturers can distance their high-value luxury offerings from more mundane machinery. Read on to learn more.
Articles Power
48V Electrical Systems: A Key to Meeting Evolving Industry Demands
The commercial vehicle industry is at a turning point, facing increasing pressure to improve efficiency, reduce emissions, and meet changing global standards. As vehicle electrification advances and power demands rise, manufacturers are exploring innovative solutions to enhance performance while optimizing fuel consumption. One promising technology trend leading this transition is the adoption of 48V electrical systems. Read on to learn more about them.
Briefs Materials
Leading the Charge to Better Batteries
A team led by Kelsey Hatzell, Associate Professor of Mechanical and Aerospace Engineering and the Andlinger Center for Energy and the Environment, has uncovered insights that could help power a new type of battery, called an anode-free solid-state battery, past lithium-ion’s limitations.
Articles Energy
Multiphysics Modeling and Simulation Enhances BESS Design
Electrical grids and data centers around the world use battery energy storage systems (BESS) as a power source, and the adoption of BESS is only continuing to grow. Read on to learn more about we can enhance BESS.
Articles Manufacturing & Prototyping
Wire Feed Laser Welding for Battery Pack Aluminum Enclosure Manufacture in EVs
Lightweight aluminum is a top choice for designing and manufacturing battery pack enclosures due to its durability and ability to enhance vehicle performance. While welding 6000-series aluminum alloys can be challenging, advanced methods like laser welding with filler wire effectively create strong, airtight joints while addressing issues like porosity and cracking. Read on to learn more.
Briefs Materials
A Path to Safer, High-Energy Electric Vehicle Batteries
This research has far-reaching implications, offering a path to safer, more efficient batteries that can support the growing demand for electric vehicles. As the world moves towards cleaner energy solutions, these advancements are crucial for making EVs more viable and attractive for consumers. Read on to learn more.
Briefs Energy
Researchers Develop Efficient Lithium Extraction Method, Setting Stage for Sustainable EV Battery Supply Chains
In the race to meet the growing global demand for lithium, a team of researchers from Rice University’s Elimelech lab has developed a breakthrough lithium extraction method that could reshape the industry. Read on to learn more about it.
Briefs Materials
Better Texture for Better Batteries
To create the new batteries needed for EVs, mobile devices, and renewable energy storage, researchers have explored new materials, new designs, new configurations, and new chemistry. But one aspect — the texture of the metals used — has been historically overlooked. Read on to learn more.
Products Power
New Products
See the new products, including Intellias' “Smart Charging Portable Kit,” a comprehensive solution accelerator designed to address the most pressing challenges in the EV charging sector; Marposs' solutions for testing prismatic battery cells; a new Lithium Manganese Iron Phosphate (LMFP) cathode active material developed by Integrals Power; and more.
On-Demand Webinars Power
How to Overcome Mechanical Challenges in Lithium-Ion Batteries with Multiphysics Simulation
The demands for higher energy density, longer cycle life, and faster charging in the automotive industry, are the pillars of Li-ion and beyond battery...
On-Demand Webinars Energy
Accelerate Battery Simulations with Surrogate Models
Battery modeling can be greatly sped up by building simulation apps that contain surrogate models. Whereas the detailed Newman model provides accuracy at a significant computational cost,...
Articles Sensors/Data Acquisition
Thermal Management Lies at the Heart of EV Innovation
Along with rapid innovation in cooling methods, a major trend in EV thermal management is the use of technology to better design more thermally efficient vehicle architectures. AI and digital technologies have been major boons to the engineering toolkit for better design, helping to radically speed up system testing and development. Read on to learn more.
Articles Energy
For EV Safety Tests, AI Is Here to Help
It’s important to note that skepticism toward AI is reminiscent of past attitudes toward now-standard technologies. Thirty years ago, tools such as CFD were met with trepidation — an attitude defined by limited understanding. Today, engineers see them as indispensable. Similarly, adopting AI requires a shift in perspective and embracing its potential.
Briefs Energy
A Triple-Layer Battery Resistant to Fire and Explosion
The triple-layer solid electrolyte features a robust middle layer that boosts the battery’s mechanical strength, while its soft outer surface ensures an excellent electrode contact, facilitating an easy movement of lithium ions. Read on to learn more.
Articles Test & Measurement
How Test Equipment Is Evolving to Keep Up with EV Batteries
Whatever technology is employed in the future, it is clear that battery test systems will continue to adapt to keep pace with changes in EV battery technology and production. Ensuring that you choose a future proof, scalable, and capable bi-directional DC source is critical in planning for testing success today and tomorrow. Read on to learn more.
Articles Test & Measurement
Ensuring the Quality of EV Batteries with CT-Scan Data Analysis and Visualization
Research and development aimed at optimizing both the technology and the cost of that most expensive of EV components — the battery — continues. Not only are the makers of current batteries under pressure to produce the highest-quality product, but they may also be considering how to participate and compete in the next-generations of these key components. Read on to learn more.
Briefs Power
A Quick and Easy Way to Produce Anode Materials for Sodium-Ion Batteries Using Microwaves
A research team led by Dr. Daeho Kim and Dr. Jong Hwan Park at the Nano Hybrid Technology Research Center of the Korea Electrotechnology Research Institute has developed a groundbreaking process technology that enables ultrafast, 30-second preparation of hard carbon anodes for sodium-ion batteries, using microwave induction heating. Read on to learn more.
Briefs Energy
Safe and Energy-Efficient Quasi-Solid Battery for Electric Vehicles and Devices
A team of researchers from Japan has developed a non-flammable quasi-solid-state LIB that can overcome the limitations of conventional batteries. Read on to learn more.
Briefs Energy
Developing Advanced Recycling Technology to Restore Spent Battery Cathode Materials
A research team has developed a novel technology for directly recycling spent cathode materials from lithium-ion batteries through a simple process that addresses the limitations of conventional recycling methods. This innovative approach restores the spent cathode to its original state. Read on to learn more.
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