Living cells are highly organized, yet they are not assembled using rigid blueprints or by following a predetermined plan.

Researchers at Los Alamos National Laboratory in New Mexico, US have used visible light to both image and manipulate the ...

In a new study ( Nature Physics, "Orbital Seebeck effect induced by chiral phonons" ), researchers developed the most ...

A novel type of three-dimensional (3D) polar topological structure, termed the "polar chiral bobber," has been discovered in ferroelectric oxide thin films, demonstrating promising potential for ...

Understanding how microscopic interactions between proteins in cells produce large-scale organization and asymmetry is a fundamental question in cell ...

Living cells are highly organized, yet they are not assembled using rigid blueprints or by following a predetermined plan. Instead, order emerges on ...

In nature, molecules often show a strong preference for partnering with other molecules that share the same chirality or handedness. A behavior that is quite evident in the phenomenon known as ...

Imagine a "smart fluid" whose internal structure can be rearranged just by changing temperature. In a new study published in ...

This article presents a method for developing elastic nanoarchitected metamaterials with tunable optical responses.

Formic acid is considered a molecule in which all atoms lie in a single plane. A research team at Goethe University, together with cooperation ...

Understanding how microscopic interactions between proteins in cells produce large-scale organization and asymmetry is a fundamental question in cell biology.

An “echo” that arrives before you finish speaking sounds like a glitch. In quantum hardware, that kind of self-interference ...