Tracking Falling Space Debris

A Stretchable OLED that Can Maintain Most of Its Luminescence

An international collaboration has developed a flexible and stretchable OLED that could put the technology on track for new applications.

5Ws of the AEON Humanoid Robot

One of the 2026 CES Innovation Awards honorees in the robotics category is AEON — a humanoid robot developed to address labor shortages as industries adapt to ageing populations and shifting workforce demands.

How Sift's Unified Observability Platform Accelerates Drone Innovation

On this episode of the Aerospace & Defense Technology Podcast, we learn about a new tool that could help manufacturers optimize the way they design and create new drones. Austin Spiegel, CTO of Sift, is the guest to explain their "unified observability platform" and how drone manufacturers can leverage it to optimize their design, validation, manufacturing, and overall engineering processes from prototype to operations.

Visualizing Radio Frequency Signals in Real Time

Viavi Solutions Inc. has integrated the "RF Viewer" augmented reality (AR) application into its OneAdvisor 800 Wireless test platform. Designed to address telecommunications, network...

New Wireless Transceiver Offers Fiber Optic Speed Without Physical Cables

A new transceiver invented by electrical engineers at the University of California, Irvine boosts radio frequencies into 140-gigahertz territory, unlocking data...

Tactical Radio Upgrades for US Navy Vessels, Jets and Drones

The U.S. Navy has awarded Data Link Solutions, a joint venture between BAE Systems and Collins Aerospace, a $248 million production contract to deliver hundreds of Multifunctional...

Product of the Month

See the product of the month: Altech Corporation's C-TEC Series of uninterruptible power supplies (UPS).

Solving AI’s Power Problem at the Chip Level

To address the staggering power and energy demands of AI, engineers have developed a revolutionary new thin-film material that promises to make AI devices significantly faster while dramatically cutting energy consumption. In this interview, Alamgir Karim, who is leading the research, discusses the new approach, its benefits, and how Nobel Prize-winning chemistry enabled this discovery.

Products of Tomorrow

See the products of tomorrow, including a new nanoscale optical device that works at room temperature to entangle the spin of photons (particles of light) and electrons to achieve quantum communication; a dust sensor for use in space environments; and more.

New on the Market

See what's new on the market, including COMSOL Multiphysics® version 6.4; Novotechnik's Vert-X 26 Series of non-contacting magnetic angle sensors; HMS Networks' N-Tron NT110-FX2, an unmanaged Ethernet switch with two fiber ports; Littelfuse's MMIX1T500N20X4 X4-Class Ultra-Junction Power MOSFET; and more.

Holey Carbon Allotropes

Researchers at NASA have developed new methods to manufacture carbon materials (e.g., nanotubes, graphene) with holes through the graphitic surface of the particles. The methods generate materials with increased accessible surface area, increased functional groups at damage sites, and improved through-surface molecular transport properties.

New Material Significantly Enhances Green Hydrogen Production Efficiency

Researchers in Korea have successfully developed a new material that significantly enhances the efficiency of green hydrogen production while reducing costs. Read on to learn more about it.

An Autonomous, Programmable Computer in the Form of an Elastic Fiber

MIT researchers have developed an autonomous programmable computer in the form of an elastic fiber, which could monitor health conditions and physical activity, alerting the wearer to potential health risks in real-time. Read on to learn more.

Building a New 3D Material with DNA

In two papers, one released in Nature Materials and a second in ACS Nano, researchers describe a new methodology for fabricating targeted 3D nanoscale structures via self-assembly that can find use in a variety of applications, and they provide a design algorithm for others to follow suit. And it’s all based on the most basic biomolecular building blocks: DNA. Read on to learn more.

Octopus-Inspired Tech Can Operate Underwater

Using mechanisms inspired by nature to create new technological innovations is a signature of one Virginia Tech research team. The group led by Associate Professor Michael Bartlett has created an octopus-inspired adhesive, inspired by the shape of octopus suckers, that can quickly grab and controllably release challenging underwater objects. Read on to learn more about it.

Engineering a Coating for Bacteria-Free Produce

Dr. Mustafa Akbulut, Professor of Chemical engineering, has teamed up with Horticultural Science Professor Luis Cisneros-Zevallos to engineer longer-lasting, bacteria-free produce. Read on to learn more about it.

New Membrane Technology to Extract Lithium from Water

To help meet surging demand and possible supply chain problems, scientists at the U.S. Department of Energy’s Argonne National Laboratory have developed an innovative membrane technology that efficiently extracts lithium from water. Read on to learn more.

Engineers Find New Ways to Connect Concrete Pieces for More Resilient Buildings

Researchers have developed five new ways to securely connect large concrete pieces. These connection methods are intended for a type of material called “precast concrete,” in which parts such as beams and columns are made in a factory and assembled later at a construction site. Read on to learn more.

Using Real-World Sensors and VR to Improve Building Maintenance

A new system that brings together real-world sensing and virtual reality would make it easier for building maintenance personnel to identify and fix issues in commercial buildings that are in operation. The system was developed by computer scientists at the University of California San Diego and Carnegie Mellon University. Read on to learn more.

Meet ReSURF: An Ultrafast, Stretchable, Self-Healing, Recyclable Sensing Device

Clean, safe water is vital for human health and well-being. However, detecting contamination quickly and accurately remains a major challenge in many parts of the world. A groundbreaking new device developed by researchers at the National University of Singapore has the potential to significantly advance water quality monitoring and management. Read on to learn more.

Combining 3D Embroidery Techniques with Machine Learning for Fabric-Based Touch Sensors

A new study from NC State University combines three-dimensional embroidery techniques with machine learning to create a fabric-based sensor that can control electronic devices through touch. Read on to learn more.

New Wearable Aims to Mimic Skin’s “Sensors”

When it comes to haptic feedback, most technologies are limited to simple vibrations. But our skin is loaded with tiny sensors that detect pressure, vibration, stretching and more. Now, Northwestern University engineers have unveiled a new technology that creates precise movements to mimic these complex sensations. Read on to learn more.