Normally, when liquids solidify, their molecules become locked in place, making it much harder for ions to move and leading ...

Since his postdoctoral days at MIT, Hang Yu, associate professor of materials science and engineering, has been wrestling ...

A new kind of 3D-printable material that can stretch, flex and still stay friendly to living cells could change how medical implants, artificial organs and even batteries are built. Developed by ...

The CycleTIG feature controls the heat input and arc. The RPI (reverse polarity ignition) auto-intelligent ignition function ...

A scalable nanofabrication method uses electric-field alignment and picosecond laser welding to imprint patterned silver ...

Japanese team develops cellulose plastic that breaks down in salt water without leaving harmful microplastic fragments behind ...

Plastic is a good material, actually. While modern plastic laptops rarely flex when you pick them up, plastic can still flex ...

A TARS humanoid robot stitched embroidery live, achieving sub-millimeter precision in a task long considered impossible to ...

Experience step-by-step primitive technology as a skilled craftsman builds a two-story hut using only natural materials from ...

The new materials conduct ions equally well as liquids, liquid crystals, and solids, with no steep decrease in ion movement ...

Scientists create perovskite film semiconductors at room temperature using lasers, which is a revolution for chips and solar ...

A simple burst of visible light can now create skin-safe electrodes that could transform medical and wearable electronics.