Test Your Knowledge of Solid-State Batteries

Solid-state battery technology offers several major advantages but also presents some engineering challenges. Test your knowledge of solid-state batteries in this quiz.

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.

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.

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.

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.

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.

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.

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.

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.

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.

Retrofit in Industrial Production: Digitization of Existing Systems

Retrofitting offers a technically and economically sensible way to adapt existing production facilities to the requirements of modern manufacturing processes. The use of image processing, measurement technology, and deep learning in existing machines and systems can be decisive in this context. Read on to learn more.

Drywall Finishing Robots Accelerate Construction Schedules

San Francisco startup Canvas has developed a robotic system handling one of the most labor-intensive trades in construction: drywall finishing. Leveraging robotic arms from Universal Robots, Canvas has built a machine that reduces the usual five to seven days of spraying and sanding the drywall to just around two days for both Level 4 and Level 5 finishes. Read on to learn more.

Automated Pallet Inspection Separates the Good from the Bad

To make pallet inspecting easier and more efficient, COOP automated the process with industrial robots from KUKA Robotics and an advanced pallet inspection system powered by artificial intelligence (AI) from KUKA System Partner IVISYS called PALLETAI. Read on to learn more.

An AI System Empowers Robots with Human-Like Perception

Researchers from Duke University have developed a novel framework named WildFusion that fuses vision, vibration, and touch to enable robots to “sense” complex outdoor environments much like humans do. Read on to learn more.

Advanced Simulation Enables Better Robot-Object Interactions

A human clearing junk out of an attic can often guess the contents of a box simply by picking it up and giving it a shake, without the need to see what’s inside. Researchers from MIT, Amazon Robotics, and the University of British Columbia have taught robots to do something similar. Read on to learn more.

Electronics-Free 3D-Printed Robots

Imagine a robot that can walk, without electronics, and only with the addition of a cartridge of compressed gas, right off the 3D printer. It can also be printed in one go, from one material. That is exactly what roboticists have achieved in robots developed by the Bioinspired Robotics Laboratory at the University of California San Diego. Read on to learn more.

A Soft Robot Can Carry Loads Through the Air

Researchers have created a light-powered soft robot that can carry loads through the air along established tracks, similar to cable cars or aerial trams. The soft robot operates autonomously, can climb slopes at angles of up to 80°, and can carry loads up to 12 times its weight. Read on to learn more.

New Products

See the new products, including Bosch Rexroth’s space-optimized SMS screw-driven small modules; the updated capabilities of PI's PICMA® piezo stack actuator series via the introduction of the new PICMA® Plus actuators; Beckhoff's expanded MX-System control cabinet-free automation platform; and more.

Faster Wire Connection Technology Generates Quantifiable Savings

Today, there is innovative conductor terminating technology, known as SNAP IN technology, that allows for the fastest wiring connections to date. Read on to best understand the advantages that SNAP IN technology brings to motion control systems.

Advanced Motion Control Components for Critical Aerospace Applications

Using higher-quality, custom-engineered motion control components provides significant advantages for aerospace manufacturers. Whether through advanced gas springs, precision dampers, or electric linear actuators, the right components ensure that equipment will operate smoothly and reliably for the expected lifespan, while meeting the rigorous standards of modern aerospace. Read on to learn more.

Sealing the Future of Hydrogen: Advanced Gaskets for Electrolyzer Efficiency

As a key technology in the transition to cleaner energy, electrolyzers are critical in enabling hydrogen production without reliance on fossil fuels. However, these renewable systems face significant engineering challenges that require meticulous technical attention. Read on to learn more.

Making Hydrogen Power a Practical Proposition

Occupying a unique space as both an energy vector and a fuel, hydrogen has gained interest for propulsion and power generation applications over the past several years. Hydrogen has been investigated thoroughly throughout the previous decades, but with advances in hydrogen generation and infrastructure, and the increasing need to low-carbon propulsion solutions across all sectors, hydrogen propulsion may be poised for significant market penetration. Read on to learn more.

New Spacecraft Power System Passes First Test

A spacecraft power system that combines the technological know-how of engineers and scientists at the University of Leicester and NASA Glenn has passed its first test with flying colors. Read on to learn more about it.

Active Turbulence Suppression System for Electric Vertical Take-Off and Landing Vehicles

NASA Ames researchers have developed a novel approach for actively controlling Dutch-roll oscillations of an eVTOL aircraft by using existing outboard propellers to dampen oscillations. This novel technology avoids the need to add hardware or change the design of eVTOL vehicles to address the negative effects of turbulence. Read on to learn more.

Space Laser Tech Maps Mysterious Nearshore Terrain

Despite all the technological evolution in navigation, waters just off coastal shores around the globe have remained a black box. That is, until researchers from The University of Texas at Austin and Oregon State University developed a new technology that uses satellites in space to map out these tricky areas. Read on to learn more about it.

Nanofibers Yield Stronger, Tougher Carbon Fiber Composites

Researchers at the U.S. Department of Energy (DOE)’s Oak Ridge National Laboratory (ORNL) have developed an innovative new technique using carbon nanofibers to enhance binding in carbon fiber and other fiber-reinforced polymer composites — an advance likely to improve structural materials for automobiles, airplanes and other applications that require lightweight and strong materials.

Ferroelectric Material Adapts to Light Stimuli by Reorganizing Atomic Connectivity

With this groundbreaking discovery of time-dependent changes in networked nanodomains, developers are on the path to building adaptive networks for information storage and processing. Read on to learn more.

Developing Durable Solar Panels Without Silicon

Using a new technology, Juan-Pablo Correa-Baena's lab has found a way to stabilize perovskite solar cells, which are built like a battery. Read on to learn more.

Capturing Water from Thin Air

Engineers from Australia and China have invented a sponge-like device that captures water from thin air and then releases it in a cup using the sun’s energy, even in low humidity where other technologies such as fog harvesting and radiative cooling have struggled. Read on to learn more.

How a Startup Is Reducing Carbon from Building Operations with Drones

A new startup is paving the way for dramatic reductions in carbon from building operations. Lamarr.AI has perfected the process of using drones, thermal imaging, and artificial intelligence to diagnose the health of building exteriors and roofs. Read on to learn more.

Converting Waste Streams into Biofuel

Scientists at the U.S. Department of Energy’s Argonne National Laboratory have developed a novel technology that creates a cost-competitive sustainable aviation fuel (SAF) that could reduce GHG emissions in the aviation industry by up to 70 percent. Read on to learn more.

New System Enables Robots to Solve Manipulation Problems in Seconds

Researchers from MIT and NVIDIA Research have developed a novel algorithm that dramatically speeds up a robot’s planning process. Their approach enables a robot to “think ahead” by evaluating thousands of possible solutions in parallel and then refining the best ones to meet the constraints of the robot and its environment. Read on to learn more.

Tri-Rotor Steering Wheel Yields Programmable Vehicular Control

Innovators at NASA Johnson Space Center have developed a programmable steering wheel called the Tri-Rotor, which allows an astronaut the ability to easily operate a vehicle on the surface of a planet or Moon despite the limited dexterity of their spacesuit. This technology was originally conceived for the operation of a lunar terrain vehicle (LTV) to improve upon previous Apolloera hand controllers.

Mid-Air Transformation Helps Flying, Rolling Robot to Transition Smoothly

Specialized robots that can both fly and drive typically touch down on land before attempting to transform and drive away. But when the landing terrain is rough, these robots sometimes get stuck and are unable to continue operating. Now a team of Caltech engineers has developed a real-life Transformer that has the “brains” to morph in midair, allowing the dronelike robot to smoothly roll away and begin its ground operations without pause. Read on to learn more.

New on the Market

See what's new on the market, including a solution for actuating choke and other valves in subsea applications; Sumida's new CEP1311F Flyback Transformers, designed for use with “no-opto” isolated flyback circuits; SPIROL's range of 2024 aluminum Press-In Inserts; Instron's AVE3, an advanced non-contacting video extensometer that delivers precise strain measurement with unparalleled, micron-level accuracy; and more.

Products of Tomorrow

See the products of tomorrow, including a compact, low-power receiver for 5G-compatible smart devices that is about 30 times more resilient to a certain type of interference than some traditional wireless receivers; a flexible, conductive skin, which is easy to fabricate and can be melted down and formed into a wide range of complex shapes; and tiny batteries that vanish after use inspired by Mission: Impossible.

Product of the Month

See the product of the month: Weidmuller USA's CUBESERIES Industrial Relay Modules, which, due to their durability and robust design, can reliably switch a multitude of small loads, decouple systems, and multiply signals. Read on to learn more.

In-Memory Computing Chip Is a Processing Breakthrough for On-Device AI Applications

EnCharge AI CEO Naveen Verma is the guest on this episode of the Aerospace & Defense Technology podcast to explain the in-memory computing architecture of their new AI chip.

Robotics in Rehabilitation: Enhancing Recovery and Patient Independence

Robotics in rehabilitation enhance recovery and enable patient independence.

New Tech May Lead to Smaller, More Powerful Wireless Devices

A new class of synthetic materials could herald the next revolution of wireless technologies, enabling devices to be smaller, require less signal strength and use less power.

Researchers Develop Recyclable, Healable Electronics

Between upgrades and breakdowns to cellphones, tablets, laptops, and appliances, so many electronic devices are getting tossed in the trash that they've taken on a name of their own:...

Tiny But Mighty: Next-Gen Transistors Hold Great Promise

As electronics become smaller, it is becoming increasingly difficult to continue scaling down silicon-based transistors. Now, a research team led by the Institute of Industrial...

Next-Gen Automotive Semiconductors Are Critical for Level 5 Driverless Cars

The driverless robotaxis chauffeuring around San Francisco, and the advanced driver assistance features on more than half of new vehicles sold this year show just...

My Opinion: Here Comes Agriculture 4.0

My Opinion: Industry 4.0 is already here — Agriculture 4.0 will catch up. Bringing automation and AI to agriculture is a necessity.

Better Data for Bodies in Motion

To discover why astronauts returning to Earth frequently experience head and neck injuries, NASA awarded SBIR contracts to miniaturize an acceleration data recorder. It’s now used in safety testing for parachute drops, cars, drones, and more.

How Wearables Are Transforming Chronic Disease Management

Wearable devices expand the ability to identify patients earlier and deliver more targeted treatments.

How Much Do You Know About Pneumatic Valves?

Determining how much and in which direction air passes through, pneumatic valves play an important role in any pneumatic system. How much do you know about pneumatic valves? Find out with this quiz.

A Quantum Accelerated Digital Twin for Aerospace and Defense Simulation

Abhishek Chopra, BQP Founder, CEO, and Chief Scientific Officer, is the guest on this episode of the Aerospace & Defense Technology podcast to explain how their simulation technology leverages quantum algorithms for simulation and modeling.

Hibiscus: New Possibilities in Satellite Thermal Imaging

When Hibiscus is sent into orbit at the end of 2026, it will open new possibilities to combat global warming and increase heat efficiency for urban planners.

Innovative Membrane Technology Promises Access to Clean Water

Water scarcity has been referred to as the silent existential crisis of our time. Our planet has very little fresh water — and is running out of it quickly. Yet no one seems to be talking about it — until Active Membranes.

Integrating AI into Medical Wearables

Artificial intelligence is transforming the design and function of wearable medical devices.

PGUOM Can Block Noise Without Blocking Air

The Zhang Lab’s latest advance, Phase Gradient Ultra-Open Metamaterial (PGUOM), centers on broadband silencing. Read on to learn more about it.

How Much Do You Know About Power Over Ethernet?

Every day, it seems, there are more applications for Power over Ethernet (PoE). Take this quiz to test how much you know about it.

Microchip’s New Processor Enables Scalable Computing Performance

Bill Dillard, Senior Manager of Aerospace and Defense at Microchip, is the guest on this episode of the Aerospace & Defense Technology podcast to explain how the PIC64 could also advance embedded processing performance for a wide variety of aerospace and defense applications.

Magnetic Breakthrough Aims to Enhance AI

Scientists have engineered a vast spin waveguide network that processes information with far less energy. These spin waves quantum ripples in magnetic materials offer a promising alternative to power-hungry electronics.

Using AI to Perfect the 3D Printing of Metals

Professor Ashif Iquebal together with Professor Aviral Shrivastava and their team at Arizona State University are developing methods for improving the quality of highly critical metal parts manufactured using 3D printing.

Growing a Whole-Brain Organoid

Johns Hopkins University researchers have grown a novel whole-brain organoid, complete with neural tissues and rudimentary blood vessels — an advance that could usher in a new era of research into neuropsychiatric disorders such as autism.

Piasecki's KARGO UAV Program: Enabling Uncrewed Logistics

John Piasecki, CEO of Piasecki Aircraft Corporation, is the guest on this episode of the Aerospace & Defense Technology podcast to discuss the future of the KARGO UAV program.

5Ws of the Ping Pong Bot

MIT engineers have developed a ping-pong-playing robot that quickly estimates the speed and trajectory of an incoming ball and precisely hits it with precision.

A ‘Real-Time Programmable Robotic Sheet’ Can Grasp and Walk on Its Own

Folding structures are widely used in robot design as an intuitive and efficient shape-morphing mechanism, with applications explored in space and aerospace robots,...

AI Shapes Autonomous Underwater “Gliders”

Marine scientists have long marveled at how animals like fish and seals swim so efficiently despite having different shapes. Their bodies are optimized for efficient, hydrodynamic aquatic...

Friction That Cools

How can a horde of active robots be automatically brought to a standstill? By arresting their dynamics in a self-sustained way. This phenomenon was discovered by physicists at Heinrich Heine University Düsseldorf (HHU)...

AI-Powered Vision System Helps Drones Navigate Safely

The skies are getting crowded. Every day, the U.S. Federal Aviation Administration manages tens of thousands of flights — from drones and helicopters to commercial jets. As air traffic...

Light-Propelled Flying Structures Aim to Study Earth’s Upper Atmosphere

A new study introduces a novel way to reach a largely unstudied stretch of the atmosphere, between 30-60 miles above Earth’s surface, the mesosphere. Researchers have introduced a new way to explore it: lightweight flying structures that can float using nothing but sunlight.

It's Time to Rethink How You Are Using Simulation

By turning simulation into custom apps, companies are empowering their workforce to make faster, smarter decisions across every part of the business — from the lab to the field.