Magazine

SkinKit Offers Versatile, Wearable On-Skin Computing

The next generation of wearable computing technology will be even closer to the wearer than a watch or glasses: It will be affixed to the skin.

Wearable RFID Sensor Tags Yield Extended Operational Times

The technology exploits the inherently passive nature of RFID to approximate the services provided by traditional active Internet of Things (IoT) protocols like ZigBee and Bluetooth.

RFID Slot Antenna Offers Big Performance, Small Form Factor

Innovators at NASA Johnson Space Center have developed a quarter-wavelength RFID slot antenna that provides polarization diversity and employs dual resonances, but in a form factor that is much smaller than other RFID antennas that provide similar functionality.

Thin Flexible Sensor Characterizes High-Speed Airflows on Curved Surfaces

To improve efficiency, it is necessary to characterize and reduce flow separation on curved surfaces.

Sensors Quickly Spot Coronavirus Proteins and Antibodies

Scientists have created a new way to detect the proteins that make up the pandemic coronavirus as well as antibodies against it. They designed protein-based biosensors that glow when mixed with components of the virus or specific COVID-19 antibodies.

Novel Solid Electrolyte Materials for Improved Battery Performance

A team has designed a new blueprint for solid-state batteries that are less dependent on specific chemical elements, particularly critical metals that are challenging to source due to supply chain issues. Their work could advance solid-state batteries that are efficient and affordable.

Self-Sensing Electric Artificial Muscles

Taking inspiration from nature, a team of researchers at Queen Mary’s School of Engineering and Materials Science has successfully created an artificial muscle that seamlessly transitions between soft and hard states while also possessing the remarkable ability to sense forces and deformations.

An Innovative Method to Produce Soft, Recyclable Fibers for Smart Textiles

Drawing inspiration from how spiders spin silk to make webs, a team of researchers has developed an innovative method of producing soft fibers that possess three key properties (strong, stretchable, and electrically conductive), and at the same time can be easily reused to produce new fibers.

Synthesizing Complex Optical Materials

Researchers have developed a colloidal synthesis method for alkaline earth chalcogenides. This method allows them to control the size of the nanocrystals in the material.

Developing More Durable Solar Cells

An international research collaboration led by UCLA has developed a way to use perovskite in solar cells while protecting it from the conditions that cause it to deteriorate.

A Novel Way to Convert Heat to Electricity

Researchers have fabricated a novel device that could dramatically boost the conversion of heat into electricity. If perfected, the technology could help recoup some of the recoverable heat energy that is wasted in the U.S. at a rate of about $100 billion each year.

EV Battery Breakthrough: 10-Minute Charge

Researchers at Penn State University have achieved a breakthrough in electric vehicle (EV) battery design to enable a 10-minute charge time for a typical EV battery.

New Microchip Could Monitor Earth’s Climate, Human Health

A team at Delft University of Technology has built a new technology on a microchip by combining two Nobel Prize-winning techniques for the first time. This microchip could measure distances in materials at high precision — e.g., underwater or for medical imaging.

3D Printing Stronger Carbon Nanotubes

Researchers in the Lyding Group at the University of Illinois Urbana-Champaign have discovered an efficient, sustainable method for 3D-printing single-walled carbon nanotube films, a versatile, durable material that can transform how we explore space, engineer aircraft, and wear electronic technology.

A Sintering Method to Fabricate Large Perovskite Devices

A Penn State-led team of researchers have created a new process to fabricate large perovskite devices that is more cost- and time-effective than previously possible — and may accelerate future materials discovery.

Detecting Porosity Defects in 3D-Printed Metal Parts

A research team has made new discoveries that can expand additive manufacturing in industries that rely on strong metal parts, including aerospace.

Assembling Matter in 3D Using Sound Waves for 3D Printing

Researchers have created a new technology to assemble matter in 3D. Their concept uses multiple acoustic holograms to generate pressure fields with which solid particles, gel beads, and even biological cells can be printed.

New on the Market

See what's new on the market, including an EV valve motor drive, a switch mainframe, CAD/CAM software, control panels, and more.

Products of Tomorrow

See the products of tomorrow, including microscale robots, LOTUS coating, and a wearable e-tattoo.

Product of The Month

See the product of the month, IDEC Corporation's SA2E general-purpose photoelectric sensor family.

Emerging Plasma FIB-SEM Techniques Advancing Battery Innovation

PFIB-SEM is a valuable technique that neatly complements other analytical and imaging methods, providing high-resolution 2D and 3D information for larger areas, as compared to traditional gallium FIB-SEM.

The Road to Net-Zero EV Development Labs

As the automotive sector continues to transition to a significant portion of their portfolio being electric, they must either build the needed test facilities to support this transition or update their current facilities.

GM Readies Fuel Cells for Commercial Deployment

After decades of concentrated development work, GM’s fuel-cell R&D unit Hydrotec is poised to deploy “the first applications that will be going commercial” of its hydrogen fuel-cell technology.

Developing High-Energy-Density Batteries Using Aluminum Foil

A team of researchers is using aluminum foil to create batteries with higher energy density and greater stability. The team’s new battery system could enable EVs to run longer on a single charge and would be cheaper to manufacture – all while having a positive impact on the environment.

New Priming Method for Improving Battery Lifecycle

Scientists at Rice University’s George R. Brown School of Engineering have developed a readily scalable method to optimize prelithiation, a process that helps mitigate lithium loss and improves battery life cycles by coating silicon anodes with stabilized lithium metal particles.

Print 3D Metal Objects at Room Temperature Using a Conductive Metallic Gel

Professor Michael Dickey, of North Carolina State University, and his team have developed a unique process that allows you to print 3D metal objects that have good electric and thermal conductivity as well as good structural properties.

LOFTID Atmospheric Re-Entry Program Paves the Way for Reusable Space Electronics

NASA’s successful Low-Earth Orbit Flight Test of an Inflatable Decelerator (LOFTID) demonstration suggests that inflatable aeroshells can keep payloads safe during atmospheric entry.