Researchers at University of New South Wales have reported details about a novel sieving-aids technology that improves the separation of metal fragments from other components when recycling ...

(Nanowerk Spotlight) The petrochemical industry relies on separating chemicals that differ by just fractions of a nanometer in size. Methanol must be purified from similarly-sized molecules in the ...

Recently, a research team led by Prof. CHEN Changlun from Institute of Plasma Physics, Hefei Institutes of Physical Science of Chinese Academy of Sciences, studied Cu(I)Cu(II)-BTC, a kind of hydrogen ...

Classical molecular sieve membranes, with 3D microparticles and 2D nanosheets as primary building blocks, are promising in chemical separation. Separation within such membranes relies on molecular ...

Hydrogen isotope separation technologies play a pivotal role in energy production, nuclear safety and advanced research. These technologies aim to distinguish between remarkably similar isotopic ...

The patented process includes the use of stainless steels balls as a high-abrasion sieving aid, with the UNSW team saying that in tests they have been able to extract 99% of the components, including ...

(Nanowerk News) By crafting atomic-scale holes in atomically thin membranes, it should be possible to create molecular sieves for precise and efficient gas separation, including extraction of carbon ...

What is a Sieve Shaker? Sieve shakers are referred to as the specialized equipment that aids in molecular diffusion via a homogeneous layer of sieves, allowing for precise particle segregation. Sieve ...