Researchers discovered that twisting 2D materials improves toughness while preserving strength, paving the way for durable electronics and smart devices.

The mechanical strength and toughness of engineering materials are often mutually exclusive, posing challenges for material ...

Many European ecosystems—whether it's forests, rivers, fields, or meadows—are in poor condition. Despite all conservation ...

A new leap in lab automation is shaking up how scientists discover materials. By switching from slow, traditional methods to real-time, dynamic chemical experiments, researchers have created a ...

Scientists at UT Austin unveil a novel 3D printing method using coloured light to fuse soft and rigid materials.

New materials developed using machine learning and artificial intelligence could, among other things, keep your house cooler ...

Researchers have demonstrated a new technique that allows "self-driving laboratories" to collect at least 10 times more data ...

Using a synthetic yeast system, the team converted urine into hydroxyapatite (HAp), which is a biocompatible calcium ...

As the demand for data-intensive computing grows, so too does the need for next-generation memory technologies capable of ...

The technology, detailed in the journal Nature Materials, relies on a specially formulated liquid resin and a unique dual-light printing process. Unlike traditional 3D printing, which ...

A powerful new method to control magnetic behavior in ultra-thin materials could lead to faster, smaller and more energy-efficient technologies, a study suggests.

The University of Oregon entered into a publishing agreement with academic publishing company Springer Nature in May, joining ...