wearables
with Xsens Motion Capture
In this episode, we explore the first healthcare device powered by body heat, made possible with liquid-based metals and discover how this innovative technology is paving the way for sustainable and energy-efficient medical devices, revolutionizing the future of healthcare.
In this episode, we explore the groundbreaking invisible mask developed by a University of Michigan spin-off that is equipped with a wearable air curtain capable of killing viruses and blocking 99.8% of aerosols.
ORGANIZATIONS. SHAPING THE INDUSTRY.
Latest Posts
with Xsens Motion Capture
3 minutes read
In this episode, we explore the first healthcare device powered by body heat, made possible with liquid-based metals and discover how this innovative technology is paving the way for sustainable and energy-efficient medical devices, revolutionizing the future of healthcare.
13 minutes read
In this episode, we explore the groundbreaking invisible mask developed by a University of Michigan spin-off that is equipped with a wearable air curtain capable of killing viruses and blocking 99.8% of aerosols.
14 minutes read
Headworn tech from U-M startup could protect agricultural and industrial workers from airborne pathogens.
4 minutes read
Smart textiles expert and Professor in the School of Materials Science and Engineering shares insight into the best fabrics to wear in the Summer
2 minutes read
Modern wearable consumer electronics devices increasingly combine convenience and purpose with more than a touch of classic style in order to grab a slice of a lucrative and growing market.
4 minutes read
Precision screen printing machines have emerged as the premier choice for manufacturing printed electronics due to their unparalleled accuracy, efficiency, and versatility.
2 minutes read
The right stretchable ink system compatible with many substrates is essential for many applications including in-mold electronics, wearable electronics, stretchable/conformable circuits, paper electronics, in-mold electronics, electronic textiles, and beyond, etc.
5 minutes read
Wearable sensor patches offer many opportunities for healthcare and wellness applications. For comfort and reliability, they should be flexible, soft, conformable, or even stretchable. Printed and hybrid electronics enable the use of almost any substrate and packaging materials, making it essential.
3 minutes read
Dr. Nitesh Saxena is teaming up with the Texas A&M Engineering Experiment Station and Rutgers University to create software that could stop voice-control mischief in manufacturing settings.
Today’s high-end wearables can support an impressive array of sensors to record, for example, the wearer’s V02 max, blood oxygen saturation (Sp02), temperature, heart rate, and heart rate variability (HRV), as well as the sleep and activity data their early predecessors pioneered.
4 minutes read
Transitioning from Lab-scale in Printed Electronics: Going from lab and pilot equipment to rotary screen printing. Learn about example applications in printed low-power displays for use in retail as well as cost-per unit calculation comparing flat-bed vs. rotary screen printing for mass production
3 minutes read
R2R Sputtering + Direct Laser Patterning is a great way to create large-area circuits on flexible circuits, even with materials such as graphene or MoS2. The technology R2R produces high-quality uniform films on large substrates whilst the laser forms precision circuit patterns without photolith.
2 minutes read
Multi-scale approach improves the fatigue threshold of particle-reinforced rubber
3 minutes read
Globally recognized event, on 17-18 October 2023, seeks to explore the forefront of electronic innovations, drawing a bridge between the traditional and the groundbreaking, and taking you on a journey through the very fabric of next-gen electronics.
