All diseases exist on a continuum, and the damage often begins early—sometimes as soon as a child is weaned off breast milk ...

A condition long considered to be unfavorable to electrical conduction in semiconductor materials may actually be beneficial in 2D semiconductors, according to new findings by UC Santa Barbara ...

Research indicates that electron-phonon interactions in atomically thin semiconductors enhance conductivity, paving the way for efficient 2D electronic devices.

A sneeze. Ocean currents. Smoke. What do these have in common? They're instances of turbulence: unpredictable, chaotic, ...

Research shows that green technology innovation significantly reduces PM2.5 and PM10 levels in China's river basins, ...

As people's requirements for environmental protection and building quality continue to increase, many high-efficiency ...

In the Northeastern United States, the Gulf of Maine represents one of the most biologically diverse marine ecosystems on the ...

A sneeze. Ocean currents. Smoke. What do these have in common? They're instances of turbulence: unpredictable, chaotic, uneven fluid flows of ...

Zhilkin, S.V. and Kharlamov, G.V. (2015) Investigation of the Diffusion of Lennard-Jones Particles in Phase Transition Conditions by the Molecular Dynamics Method.

Biopolymer networks having a meshwork topology, e.g., extracellular matrices and mucus gels, are ubiquitous. Understanding the diffusion mechanism of self-propelled agents, including Janus colloidal ...

The dust particles are charged by ionic bombardment and diffusion. The gas flow pattern is significantly modified by the secondary EHD flow, which depends on the particle concentration.

In a twist on conventional wisdom, researchers have discovered that in ocean-like fluids with changing density, tiny porous particles can sink faster than larger ones, thanks to how they absorb salt.