At cold temperatures, water has two different liquid phases, which become one at the critical point. The discovery could help ...

Using X-ray lasers, researchers at Stockholm University have been able to determine the existence of a critical point in ...

Single-walled carbon nanotubes (SWCNTs) are known for their remarkable properties, which make them essential in many advanced technologies. Yet, creating these nanotubes efficiently and on a large ...

Liquid-liquid phase separation (LLPS) and crystallization are intertwined phenomena of considerable importance in both fundamental research and industrial applications, particularly in the ...

Liquid-liquid phase separation is not a precursor to formation of amyloid fibrils, a pathological hallmark of Parkinson's disease, shows study. Rather, the formation of protein into liquid droplets ...

Liquid water exhibits a remarkable range of dynamic behaviours and phase transformations that remain at the forefront of scientific investigation. Its complex hydrogen‐bonding network gives rise to ...

Researchers used cloud point measurements to construct a phase diagram. The solid lines represent the droplet density, while the dashed lines represent the solution density. Crystallization is a ...

LLPS as a rising molecular entity in the cytoplasm regulates diseases progression via a variety of ways. For example, the relationship between LLPS and cancer can be summarized into six aspects: gene ...

Scientists have uncovered a key finding to one of water's unique properties: at high pressure and low temperature, liquid water separates into two distinct liquid phases -- one high-density and one ...

This research could provide a means to give a deeper insight into the transformation between different structures in a wider variety of materials. This schematic illustrates the MALIO software, a ...