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New 3D-Printable Nanocomposite Prevents Overheating in Military Electronics
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Latest Stories
Briefs Energy
Breakthrough Advances Sodium-Based Battery Design
Read on to learn about research that raises the benchmark for sodium-based all-solid-state batteries and demonstrates thick cathodes that retain performance at room temperature down to subzero conditions.
Briefs Manufacturing & Prototyping
Breaking the Rules to Build a Better Battery
By flipping a foundational belief in battery design, Hailong Chen and his team found that charging zinc-ion batteries at higher currents can make them last longer. Read on to learn more about this surprising result.
Tech Talks Energy
How Dielectric Tapes Integrate into Battery Packs with Various TIMs and Structural Adhesives
In a world of competitive pressures and engineering challenges, pressure-sensitive adhesive (PSA) tapes have emerged as a prime solution for EV...
Briefs Energy
Developing High-Energy, Stable All-Solid-State Lithium Batteries Using Aluminum-Based Anodes and High-Nickel Cathodes
Researchers from Nanjing University, led by Professor Ping He and Professor Shaochun Tang, have published a comprehensive study in Nano-Micro Letters on the development of high-energy, stable all-solid-state lithium batteries using aluminum-based anodes and high-nickel cathodes. Read on to learn more about it.
Products Energy
New Products
See the new products, including Nexperia's ESD diodes designed to protect 48V automotive data communications networks against the destructive effects of electrostatic discharge events; Comau's collaboration with Intecells to optimize the use of cold plasma within industrial cell manufacturing processes; Carlo Gavazzi Automation's UWP-DLB Series, an advanced solution delivering intelligent dynamic load balancing for EV charging systems; and more.
Articles Energy
Battery Innovation Key for Commercial and Off-Highway EVs
The move to electrified on- and off-highway equipment is not without its challenges. The industry itself lags greatly behind the passenger car industry, which accounted for 17.5 million EVs sold globally last year. But why? Read on to find out.
Articles Energy
Solving Fleet Electrification Bottlenecks with Battery-Integrated Charging Systems
Charging infrastructure has become the primary bottleneck to fleet electrification. Despite growing demand for electric trucks and increasing pressure to decarbonize logistics operations, many fleet operators face long delays for grid upgrades, transformer installations, and permitting, at times waiting more than a year to power vehicles that have already arrived. OptiGrid was formed in response to this growing gap between vehicle readiness and infrastructure availability. Read on to learn more.
Articles Energy
Next-Generation Elastomer Seals: Enhancing Battery Safety and Sustainability in E-Mobility
As the EV market accelerates toward mass adoption, the need for durable, efficient, and scalable battery technologies is reshaping supply chain priorities across the automotive and energy sectors. Advanced sealing materials, such as high-performance elastomers, are emerging as strategic enablers in this transformation. Read on to learn more.
Articles Energy
Driving EV Development with a Twin-Battery Approach
IAV hopes that its twin-battery design concept will function as a showcase to others in the battery industry that, even if you have demands that are contradicting, there can still be a solution. Read on to learn more.
Briefs Design
Built-In Smart Sensors Can Prevent Lithium-Ion Battery Fires Before They Start
New smart sensors can help detect dangerous internal failures in lithium-ion batteries before they escalate into fires or explosions, say researchers from the University of Surrey. Read on to learn more.
Briefs Green Design & Manufacturing
A Cleaner, Scalable Process to Recycle Lithium-Ion Batteries
In a major step forward for sustainable energy technology, researchers at Worcester Polytechnic Institute, led by Professor Yan Wang, William B. Smith Professor of Mechanical and Materials Engineering, have developed a new, scalable method to recycle lithium-ion batteries in a way that is both efficient and environmentally friendly. Read on to learn more.
Briefs Materials
New AI Tool Predicts Lithium Metal Anode Failures from Just Two Early Cycles
In a groundbreaking study, researchers at Tsinghua Shenzhen International Graduate School and the Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, have developed a predictive model that uses electrochemical data from the initial cycles of LMBs to forecast potential failures. Read on to learn more.
Briefs Energy
Thick Electrodes’ Chemistry Matters More Than Structure for Battery Performance
A team of Rice University researchers led by materials scientist Ming Tang showed that even if the materials used in thick battery electrodes have nearly identical structures, their internal chemistry impacts energy flow — and, hence, performance — differently. This finding goes against conventional wisdom in the field. Read on to learn more.
Briefs Materials
AI Breakthrough Unlocks ‘New’ Materials to Replace Lithium-Ion Batteries
In research published in Cell Reports Physical Science, an NJIT team successfully applied generative AI techniques to rapidly discover new porous materials capable of revolutionizing multivalent-ion batteries. Read on to learn more.
Briefs Green Design & Manufacturing
Eco-Friendly Upcycling: Turning Spent Batteries into High-Voltage Energy Storage Systems
A research team led by Dr. Yosep Han at the Korea Institute of Geoscience and Mineral Resources has successfully developed an eco-friendly electrochemical process to upcycle lithium manganese oxide, a common cathode material in spent lithium-ion batteries. Read on to learn more.
On-Demand Webinars Power
4 Ways Simulation Can Accelerate Fuel Cell Development
In today’s fast-paced fuel cell industry, reducing time to market is both a strategic imperative and a competitive advantage. This 45-minute webinar will explore how system-level...
Articles Power
From Mine to Battery: The Growing Importance of Graphite Purity and Provenance
Collaborating across sectors and keeping up with developments in analysis tools will be crucial as the transition to a more sustainable energy landscape occurs in the future. Read on to learn more.
Articles Power
Laying the Building Blocks for the EV Smart Grid
This article introduces the fundamental concepts behind EV load management, which allows fleet operators to fit more EV chargers on the utility service that they currently have. Read on to learn more.
Articles Energy
How Battery Simulation Is Taking High-Performance EV Development to New Heights
What was once a specialized capability is now becoming a cornerstone of modern EV development. Simulation delivers speed, accuracy, and flexibility — qualities that are essential to staying competitive in advanced electrification. Read on to learn more.
Articles Energy
Why Accurate SoC and SoH Estimation Is Critical for Battery Longevity and Business Success
The modern world runs on battery power. The world’s most critical industries are widely adopting battery-powered systems to achieve decarbonization goals, energy independence, and mobility. Still, like any technology, battery performance and business success depend on how well they’re managed. Read on to learn what this means.
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 Power
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.
Webcasts
Automotive
SAE Automotive Podcast: Solid-State Batteries
Manufacturing & Prototyping
SAE Automotive Engineering Podcast: Additive Manufacturing
Defense
A New Approach to Manufacturing Machine Connectivity for the Air Force
Software
Optimizing Production Processes with the Virtual Twin
Automotive
EV and Battery Thermal Management Strategies
Aerospace
How Packet Digital Is Scaling Domestic Drone Battery Manufacturing