Smart materials are revolutionizing products and devices. A team at Purdue University believes studying nature is the best way to develop the next generation of smart materials. Professor Zavattieri ...

Smart materials are characterized by the capability to change properties in response to environmental changes or external stimuli. They can be tailored to have controlled interactions with biological ...

'Smart material' as a concept is nothing new in the realm of science these days. But perhaps you can consider this one something a bit more interesting due to its potential implications for the future ...

Smart or intelligent materials possess unique capabilities, such as self-adaptability, memory, self-sensing, and multi-functionality, making them attractive across many industries, including aerospace ...

ADELPHI, Md. -- How is it smart materials are getting smarter? That is what scientists are discovering. Army and Naval scientists have demonstrated a new class of solid-state phase change material for ...

Understanding smart materials is vital for advancing adaptable technologies, forming the foundation for breakthroughs in robotics, automation, and biomedical devices. This area of study explores the ...

Researchers developed a system of self-assembling polymer microparticles with adjustable concentrations of two types of attached residues. They found that tuning the concentration of each type allowed ...

Scientists have created a novel thermoresponsive polymer by adding divalent cations to polymers and water solvents. They also succeeded in controlling thermoresponsive properties by changing the type ...

March 12 (UPI) --New light-directed materials developed by researchers at Tufts University promise to power smart solar panels that automatically follow the sun's path across the sky. The technology, ...

Learn everything you need to know about ProShares Smart Materials ETF (TINT) and how it ranks compared to other funds. Research performance, expense ratio, holdings, and volatility to see if it's the ...

A new color-changing material can remember and forget like a brain cell, creating self-erasing images that hide information after a short time without using extra power. (Nanowerk Spotlight) Screens ...

Dry powder inhalers typically rely on carrier particles for drug delivery. Here, multi-focus 3D laser printing was used to fabricate microparticles with varied geometries, identifying a spiked ...