Articles

Energy

A Software-Defined Framework for Interpreting Impedance Signals at Scale

This article presents an impedance-native, software-defined diagnostic framework developed at Energsoft that shifts the focus from impedance measurement to impedance interpretation. Read on to learn more.

Articles

Software

CES 2026: AI, EVs Need These Power Electronics Updates

Physical AI may have been the dominant keyword at CES 2026, but behind all the hype around that, there were still plenty of companies on hand in Las Vegas focused on less flashy headlines. Read on for some examples of companies working on the power electronics required behind the scenes to make our potential artificial intelligence future possible.

Briefs

Power

Electric Eel Biology Inspires Powerful Gel Battery

Power sources used in devices found in or around biological tissue must be flexible and non-toxic, while still powerful enough to support demanding technologies such as medical devices or soft robotics. To achieve this balance, researchers at Penn State are taking inspiration from electric eels. Read on to learn more.

Articles

Electronics & Computers

Shifting from Reactive to Preemptive Thermal Management

A shift from reactive to preemptive thermal management is particularly important for improving performance, efficiency, and service life. By maintaining a uniform, stable temperature and minimizing even small momentary disruptions to such a steady state, thermal management systems backed by coupled electrothermal modeling will be key to pushing the envelope for EV motor quality. Read on to learn more.

Briefs

Energy

Supercapacitors That Rival Batteries

In a study published in Nature Communications, a team reveals a new kind of carbon-based material that allows supercapacitors to store as much energy as traditional lead-acid batteries, while delivering power far faster than conventional batteries can manage. Read on to learn more.

Briefs

Power

Research Upturns Assumptions About Battery Failure

New research from Argonne National Laboratory and the University of Chicago Pritzker School of Molecular Engineering has solved a major battery mystery that has led to capacity degradation, shortened lifespan and, in some cases, fire. Read on to learn more.

Briefs

Energy

Building an Affordable Grid-Scale Alternative to Batteries

Researchers at Rice University have found a new way to improve a key element of thermophotovoltaic systems, which convert heat into electricity via light. Read on to learn more about it.

Briefs

Energy

Anode-Free Battery Doubles Electric Vehicle Driving Range

A joint research team led by Professor Soojin Park and Dr. Dong-Yeob Han of the Department of Chemistry at POSTECH, together with Professor Nam-Soon Choi and Dr. Saehun Kim of KAIST, and Professor Tae Kyung Lee and researcher Junsu Son of Gyeongsang National University, has successfully achieved a volumetric energy density of 1270 Wh/L in an anode-free lithium metal battery. This value is nearly twice that of lithium-ion batteries currently used in electric vehicles, which typically deliver around 650 Wh/L. Read on to learn more.

Briefs

Power

New Protective Layer Boosts Lithium Metal Battery Performance

The coating toughens the surface of the electrolyte fivefold against fracturing from mechanical pressure. It also makes existing imperfections much less vulnerable to lithium burrowing inside, especially during fast recharging. Read on to learn more.

Webinars

Power

Battery Abuse Testing: Pushing to Failure

What happens when a battery is pushed to its limits? Battery abuse testing plays a critical role in understanding how batteries respond when subjected to conditions beyond normal operation. These tests...

Articles

Automotive

The Future of Axial- and Radial-Flux Motors

Traditionally, most motors used in EVs and mobility platforms have been radial flux systems. In recent years, there have been major strides in alternative axial flux motor architectures. What exactly do these architectural differences mean for motor design and production? Read on to find out.

Articles

Government

EV Industry Grapples with Unprecedented Battery Regulation Compliance Challenges

The EU Battery Regulation demands unprecedented granularity in supply chain tracking. Read on to learn more about what this means.

Briefs

Manufacturing & Prototyping

How Carbon Fibers Can Help Manufacture Li-ion Batteries

Oak Ridge National Laboratory researchers have overcome a barrier to using a more affordable, dry process for manufacturing the Li-ion batteries used in vehicles and electronic devices. The resulting batteries provide greater electricity flow and reduced risk of overheating. Read on to learn more.

Articles

Energy

The End of the Beginning: Why the EV Market Will Overcome the Loss of Tax Credits

Will EV sales in the U.S. double by the end of the decade, or more? Will the U.S. keep pace with China’s relentless iterative improvements on EV technology, or will China increasingly dominate the rapidly electrifying global transportation industry? Read on to learn more.

Products

Power

New Products

See the new products, including Plasmatreat's HydroPlasma, a solution for the removal of stubborn contaminants from glass and metal surfaces; TDK Corporation's 3000-watt TDK-Lambda brand HWS3000G programmable AC-DC power supplies; Zircotec's new range of proprietary ceramic coatings; Thermo Fisher Scientific's expanded solutions for battery manufacturers; and more.

Articles

Robotics, Automation & Control

Heavy-Payload Conveyance Paves the Way for Next-Generation Battery Manufacturing

Battery packs are becoming larger and heavier, particularly in applications such as electric trucks, aviation and renewable energy storage. As payload requirements increase, manufacturers are turning to advanced automation and material handling systems to keep pace. Read on to learn what this means.

Briefs

Green Design & Manufacturing

New Self-Assembling Material Could Be the Key to Recyclable EV Batteries

Today’s electric vehicle boom is tomorrow’s mountain of electronic waste. And while myriad efforts are underway to improve battery recycling, many EV batteries still end up in landfills. A research team from MIT wants to help change that with a new kind of self-assembling battery material that quickly breaks apart when submerged in a simple organic liquid. Read on to learn more.

Briefs

Research Lab

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

Materials

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

Power

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

Power

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

Semiconductors & ICs

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.