A robot fish fitted with a twisted and coiled polymer (TCP) to drive it forward, a lightweight low-cost device that relies on temperature change to generate movement, could make underwater...
A Cornell-led collaboration harnessed chemical reactions to make microscale origami machines self-fold — freeing them from the liquids in which they usually function, so they...
Purdue University engineers have developed a patent-pending tool to make the manufacture of ultrathin semiconductors more consistent, controllable, and...
Finding value in the design of your electric vehicles begins with finding a manufacturing partner that satisfies all of your objectives. Our high-current sensing solutions...
Safety in medical electrical equipment starts with the supply of power input. Power connectors and power entry modules (PEMs) with filters must fulfill the...
Choosing the appropriate approach and equipment for temperature measurement is key to successful testing applications. In this 45-minute Webinar, attendees will find an...
Manufacturers have long relied on silicone adhesives to assemble life-changing medical devices, from cochlear implants to gastric balloons to insulin pumps. Choosing...
Programmable The global automotive industry is rapidly transitioning from hardware- to software-defined vehicles. As a result, many features and functions traditionally driven by...
The technology would be pivotal in a portable mass spectrometer that could help monitor pollutants, perform medical diagnoses in remote areas, or even test Martian soil.
Radha Krishna Moorthy is lead researcher on an Oak Ridge National Laboratory project to create a new architecture to modernize the electric grid from the bottom up. The approach combines hardware and software to monitor equipment health, speed up communication and increase security.
The biomedical manufacturing industry has grown substantially in recent years due to unprecedented demand for medical consumables and safety equipment. Being a...
Thousands of hydrogen-fueling stations must be built this decade to meet increasing demand. To build at this scale, you need reliable, easy-to-install solutions that dispense fuel quickly,...
The future of military computing will, by necessity, involve a lot more commonality and standardization, both within each branch of the armed forces and among the various branches. The Sensor...
Newcastle University researchers have created high-efficiency, sustainable solar cells that harness ambient light to power Internet of Things (IoT) devices.
Last fall, Binghamton University professor Seokheun “Sean” Choi and his Bioelectronics and Microsystems Laboratory published their research into an ingestible biobattery...
The U.S. Department of Energy Solar Energy Technologies Office (SETO) has announced that a team of researchers, led by MIT and including the University of California San...
For the first time ever, leaders in the space communication and navigation community come together to discuss the technology required to build and navigate a...
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