The global smart materials market is entering a period of sustained growth, driven by advances in material science and ...

In living systems, the orchestration of shape, function, and adaptation emerges from components that are not themselves alive ...

Often referred to as smart materials, temperature-responsive or thermoresponsive polymers are gaining attention for their ability to respond to external temperature changes, allowing for an extensive ...

Scientists have developed a revolutionary technique for creating colors that can change on command. These are structural colors that don't rely on dyes or pigments and can be used for display signage, ...

UK researchers have created the first smart fabric that can change shape and color in response to two different stimuli: heat and electricity. The development opens up new possibilities in various ...

The following is part of a series on brain-machine integration and biomechanical solutions to restore function to tissues damaged by disease, trauma, or time. This and the previous piece focus on ...

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 ...

A new smart material is activated by both heat and electricity, making it the first ever to respond to two different stimuli. A new smart material developed by researchers at the University of ...

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 ...

Safran Explore, the open innovation programme of Safran Group, returns in 2026 with an edition dedicated to Smart Materials. Its objective remains aligned with previous editions: to identify, support ...

Researchers are blurring the lines between robotics and materials, with a proof-of-concept material-like collective of robots with behaviors inspired by biology. Researchers at UC Santa Barbara and TU ...

Researchers at UC Santa Barbara and TU Dresden are blurring the lines between robotics and materials, with a proof-of-concept material-like collective of robots with behaviors inspired by biology. Of ...