Researchers have developed a new chemical separation method that is vastly more efficient than conventional processes, opening the door to faster discovery of new elements, easier nuclear fuel ...

As the global demand for clean and low-carbon energy grows, nuclear power is expected to play an increasingly important role.

Researchers have developed a groundbreaking one-step, crystal growth process for making ultra-thin layers of material with molecular-sized pores. Researchers demonstrated the use of the material, ...

Most industrial chemists spend their days separating the components of large quantities of chemical mixtures into pure or purer forms. The processes involved, such as distillation, account for 10–15% ...

Traditional techniques of converting fossil fuels for heat and power generation and chemical production increase the carbon ...

(Nanowerk News) Chemical separation processes in industry are typically quite costly, and current techniques often use thermal separation processes such as distillation and evaporation which now ...

IP: 40.77.167.7. Industrial wastewater treatment remains a complex and evolving challenge, particularly when it comes to the ...

Heating a liquid until it evaporates is one of the most fundamental ways to separate chemical mixtures. Just turn on the heat and wait. On the industrial scale, the problem is not so much the wait, ...

The actinides - those chemical elements on the bottom row of the periodic table - are used in applications ranging from medical treatments to space exploration to nuclear energy production. But ...

(Nanowerk News) A team of researchers, led by the University of Minnesota, has developed a groundbreaking one-step, crystal growth process for making ultra-thin layers of material with molecular-sized ...