University of Toronto researchers create biochar from wood as strong as mild steel, redefining sustainable materials.

This article examines emerging materials in space science, focusing on advancements that enhance performance and ...

Researchers have unveiled a novel class of AI-enhanced artificial muscles built from bio-inspired, lifelike materials.

There's a lion's share of potential energy in the vibrations produced by footsteps on dance floors, exercise machines in the ...

Researchers have developed eco-friendly bricks and tiles from agricultural waste, reducing costs and carbon emissions while ...

Discover how a new ceramic material offers a lightweight, thermally stable, fatigue-resistant option for harvesting waste ...

Solid waste facility floors experience some of the most punishing service conditions in the industrial world. From transfer ...

AI-powered muscles, made from lifelike materials, paired with intelligent control systems can perform motions that feels ...

Thermo Fisher's Dr. Annika Volp shares insights on using extrusion for mechanical recycling of marine plastics, integrating ...

Researchers from the University of Toronto have uncovered how the hidden architecture of wood can give rise to biochar materials as strong as mild ...

Aryan Gupta’s sanitation rover replaces unsafe manual drain cleaning with a remotely operated, low-cost robot that protects ...