Our society's rapid pace of technological advancement is accompanied by an equally rapid growth in power consumption to meet our needs for AI-focused data...
In a cooperative project, Empa researchers investigated inductive charging of electric cars. This is not only similarly efficient to cable-based charging but could also simplify the integration...
Last December, Tech Briefs readers were asked to select one product from our 2025 Products of the Month to be named Readers’ Choice Product of the Year. Thanks to all of our readers who cast their votes. Read on for the three 2025 winners.
See the products of tomorrow, including a bio-mimetic, light-powered soft lens that mimics the human eye’s ability to refocus and adjust to varying light conditions; a new material for insulating windows that could improve the energy efficiency of buildings worldwide; and more.
See what's new on the market, including Aerotech's PICAlignTM architecture, a new active alignment solution designed to overcome the manufacturing challenges of high-volume Co-Packaged Optics (CPO) production; PI's 6-axis piezo alignment platform: the P-616.65S Nano-Cube® 6-DOF piezo-flexure nano positioning system; a high-impedance miniaturized ferrite-core wire wound inductor from Coilcraft; and more.
Firefly Aerospace recently announced a new commercial payload agreement with Volta Space Technologies to host a wireless power receiver on Firefly’s Blue Ghost Mission 2 lander on the far side of the Moon. The payload will serve as a technology demonstration for Volta’s planned lunar power network, called LightGrid. Read on to learn more.
University of Washington researchers have developed IRIS, a smart ring that allows users to control smart devices by aiming the ring’s small camera at the device and clicking a built-in button. The prototype Bluetooth ring sends an image of the selected device to the user’s phone, which controls the device. Read on to learn more.
Space is becoming increasingly congested due to rising numbers of on-orbit satellites and debris objects. Uncontrolled growth will severely affect future space operations. NASA Ames has developed a novel patent-pending technology known as Space Traffic Management (STM) which provides a robust framework for on-orbit coordination of activities to enhance the safety, stability, and sustainability of operations in the space environment. Read on to learn more.
Imagine simply telling your vehicle, “I’m in a hurry,” and it automatically takes you on the most efficient route to where you need to be. Purdue University engineers have found that an autonomous vehicle (AV) can do this with the help of ChatGPT or other chatbots made possible by artificial intelligence algorithms called large language models. Read on to learn more.
Researchers at McGill University have made a major breakthrough in advancing all-solid-state lithium batteries, a promising next-generation technology for electric vehicle (EV) batteries. By addressing a long-standing issue with battery performance, this innovation could pave the way for safer, longer-lasting EVs. Read on to learn more.
In a new collaboration, the Argonne National Laboratory and National Energy Technology Laboratory are leveraging their expertise in RDEs to develop advanced computational fluid dynamics tools that can give scientists a deeper understanding of the combustion process to unlock more of the engine's potential. Read on to learn more.
Engineers at the University of California San Diego have developed a new cooling technology that could significantly improve the energy efficiency of data centers and high-powered electronics. The technology features a specially engineered fiber membrane that passively removes heat through evaporation. It offers a promising alternative to traditional cooling systems like fans, heat sinks and liquid pumps. Read on to learn more.
A new Microelectromechanical system (MEMS) grating modulator has been developed, offering significant advancements in optical efficiency and scalability for communication systems. By integrating a tunable sinusoidal grating with broadside-constrained continuous ribbons, a large-scale aperture of 30 × 30 mm is achieved and supports high-speed modulation up to 250 kHz. Read on to learn more.
The technique promises immediate impact not only on high-capacity optical communications but also on real-time endoscopic imaging, vibration-tolerant fiber sensors, and any application that demands fast, energyefficient phase retrieval. Read on to learn more.
A research team has designed a passive metasurface-based filtering system that breaks free from LTI constraints through an innovative time-varying interlocking mechanism. The design incorporates metasurface panels with internally coupled circuit elements, including metal-oxide-semiconductor field-effect transistors (MOSFETs). Read on to learn more.
A team of scientists and researchers has found a way to make oxygen production lighter, easier, and more sustainable — using magnetism. Read on to learn more.
Batteries are nearing their limits in terms of how much power they can store for a given weight. That’s a serious obstacle for energy innovation and the search for new ways to power airplanes, trains, and ships. Now, researchers at MIT and elsewhere have come up with a solution that could help electrify these transportation systems. Read on to learn more.
Using computer simulations, University of Wisconsin-Madison mechanical engineers have uncovered a flaw in how rovers are tested on Earth. That error leads to overly optimistic conclusions about how rovers will behave once they’re deployed on extraterrestrial missions. Read on to learn more.
By leveraging rich simulation data to train AI models, which can then be used to quickly explore a design space and guide further simulations, the existing product design process can be enhanced to become faster and more flexible. Read on to learn more.
Originally scheduled for September 2025, Artemis II, NASA’s first crewed mission in the Artemis program is now targeted no later than April 2026 for launch. Taking the crew around the Moon is going to be the agency’s first step toward sustained lunar presence. Read on to learn more about it.
Engineering the next generation of surgical robots...conductive skin gives robots the human touch...how vision integration is transforming collaborative robotics. Read about these innovations and more...
Noise, vibration, and harshness (NVH) is critical in cars because it directly shapes the driver and passenger experience. This 60-minute webinar from the editors of...
Engineers face increasing pressure to design power distribution units (PDU) that can support higher complexity, greater electrification, and stricter safety...
Global energy demands are surging, pushed by energy-intensive data centers powering artificial intelligence and increased manufacturing. How will the world meet these rising energy needs? Read on to find out about one way!
Achieving accurate representations of the interactions at play in MEMS devices requires multiphysics simulation. Check out the following ebook, MEMS Device R&D, for four stories on how organizations around the world are...
Building on her experience volunteering at retirement homes, Carnegie Mellon researcher Jasmine Li decided to focus her research on assistive robotics that help people with everyday tasks....
Sea stars are creatures whose movements involve the coordination of hundreds of tiny tube feet to navigate complex environments — despite the lack of a central brain. In other words, it’s as though...
If the goal of a robot is to perform a function, then minimizing the possibility of failure is a top priority when it comes to robotic design. But although systems with multiple units, or agents,...
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