Researchers have uncovered how primate brains transform flat, 2D visual inputs into rich, 3D mental representations of ...

Shape memory polymer surfaces with nanotips offer tunable dry adhesion for robotics, electronics, and biomedical devices.

Shading brings 3D forms to life, beautifully carving out the shape of objects around us. Despite the importance of shading ...

A pioneering review published in Nano-Micro Letters provides a thorough overview of the significance of two-dimensional (2D) materials in defining the future of electronics and integrated circuits ...

Whole-mount 3D imaging at the cellular scale is a powerful tool for exploring complex processes during morphogenesis. In organoids, it allows examining tissue architecture, cell types, and morphology ...

In biology textbooks and beyond, the human genome and DNA therein typically are taught in only one dimension. While it can be ...

The relentless down-scaling of electronics grands the modern integrated circuits (ICs) with the high speed, low power dissipation and low cost, fulfilling diverse demands of modern life. Whereas, with ...

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

Learn about how Trumpf is selling of its LPBF business, an elephant figure printed inside a living cell, and more in this ...

D bioprinting uses living cells as "ink" to create functional tissues. Discover how this technology is transforming medicine ...

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

Is it wizardry? Physicists at the University of Konstanz have succeeded in changing the properties of a material in a non-thermal way with the help of light and magnons. The new process is not only ...