World's first 3D volumetric circuit
Research on the 3D/volumetric circuit technology was borne out of the notion that a three-dimensional circuit offers more freedom to make circuits smaller, lighter and more efficient. 3D printing allows them to be manufactured into arbitrary form factors that can be integrated into any object or surface.
Route to flexible electronics made from exotic materials
Engineers have developed a technique to fabricate ultrathin semiconducting films made from a host of exotic materials other than silicon. To demonstrate their technique, the researchers fabricated flexible films made from gallium arsenide, gallium nitride, and lithium fluoride — materials that exhibit better performance than silicon but until now have been prohibitively expensive to produce in functional devices.
Wearable for battlefield trauma
Known as Batdok, a wearable technology allows a medic to efficiently monitor multiple casualties in the field using a smartphone or tablet. Adaptation for civilian applications will advance telemedicine capabilities, the company said.
Clothing that can charge your cell phone, carbon is the new black
Engineers are leveraging a partnership to create clothing that can charge your cell phone. Move over, Iron Man.
GE Global Research
GE Global Research presented their work producing a wearable sensor for monitoring hydration. IDTechEx attended their presentation at 2018FLEX in Monterey, CA.
Flexible system-on-chip for internet-of-things
As the ecosystem of everyday objects embedded with technology to connect, communicate and transfer information continues to expand, scientists are challenged to find ways to enable even more physical objects to become 'smarter' and connected.
Hybrid 3-D printing method for flexible electronics
A collaboration between scientists has resulted in a new method for digital design and printing of stretchable, flexible electronics. The process, called Hybrid 3-D printing, uses additive manufacturing to integrate soft, conductive inks with a material substrate to create stretchable, wearable electronic devices.
Robots learn contextual commands
Despite what you might see in movies, today's robots are still very limited in what they can do. They can be great for many repetitive tasks, but their inability to understand the nuances of human language makes them mostly useless for more complicated requests.
Low-cost wearables manufactured by hybrid 3D printing
A collaboration has created a new additive manufacturing technique for soft electronics, called hybrid 3D printing, that integrates soft, electrically conductive inks and matrix materials with rigid electronic components into a single, stretchable device.
Biosensor stimulates sweat even when patient is resting and cool
One downside to medical sensors that test human sweat: you have to sweat. Sweating from exertion or a stifling room temperature can be impractical for some patients and unsafe for others.
Additive technologies for cost efficient solar power
Inspired by newspaper printing, and taking cues from additive manufacturing technology, researchers are exploring new ways to make solar cells more cost efficient—increasing application potential in the process.
Worm-inspired material for soft robotics
A new material that naturally adapts to changing environments was inspired by the strength, stability, and mechanical performance of the jaw of a marine worm.
Researchers improve production of thin, efficient solar cells
Researchers are making strides in material development that may open up new possibilities for thin, wearable electronics and other vital power applications.
Self-powered mobile polymers
One of the impediments to developing miniaturized, "squishy" robots is the need for an internal power source that overcomes the power-to-weight ratio for efficient movement.
Changing materials science with robotics, AI and autonomy
The AFRL Materials and Manufacturing Directorate's Autonomous Research System, or ARES, can design, conduct and evaluate experimental data without human intervention, revolutionizing the materials research process as it is today.
Flexible batteries: evolving energy for the new reality
By using highly conductive, flexible carbon nanotube mats, scientists have developed a new type of flexible lithium-ion battery that not only stores energy, but can be folded, bent and manipulated hundreds of times without voltage fluctuations.
Wearable captures and senses sweat biomarkers
Sweat derived from eccrine glands in human skin contains valuable information about physiological performance and dysfunction. Importantly, sweat data can be captured discreetly and non-invasively.
Materials research for better energy storage
UES Inc has been awarded a $45,000,000 indefinite-delivery/indefinite-quantity contract by the US Air Force for research and development efforts for the Soft Organic Functional Technology program.
New 3D nano-material enhances battery storage
The scientists' goal is to produce new materials for a host of uses, ranging from high-efficiency batteries, ultracapacitors, fuel cells and hydrogen storage devices to lightweight thermal coatings for hypersonic jets, multifunctional materials for aerospace, and more.