Zeolites and zeotypes are widely used in the energy and chemical industries due to their unique pore structures and excellent ...

This breakthrough overcomes long-standing challenges related to zeolite pore size limitation, stability, and catalytic efficiency. Zeolites are crystalline materials renowned for their ...

Zeolites, crystalline materials widely used in the petrochemical industry, serve as pivotal catalysts in the production of fine chemicals, with aluminum being the source of active sites within zeolite ...

Representative zeolite frameworks, (with pore openings). (a) zeolite A (3D, 4.2 Å); (b) zeolite Y (3D, 7.4 Å); (c) Zeolite L (1D, 7.1 Å); (d) ZSM-5 (silicalite) (2D, 5.3 × 5.6 Å, 5.1 × 5.5 Å) ...

Dr Guangchao Li said, "We will develop further novel synthesis methods to precisely control the distribution and concentration of aluminium atoms, as well as their pore architectures in zeolites.

A novel porous material capable of separating deuterium (D2) from hydrogen (H2) at a temperature of 120 K has been introduced ...

The zeolite minerals, whose crystals contain a myriad of minute pores, have made possible a new branch of chemical technology. They can perform precise separations of very similar molecules ...

The zeolite is a crystalline aluminosilicate having regular channels (pores) controlled on the order of angstroms (ten-millionths of a millimeter) and cavities (voids) with a specific surface area ...

Researchers revealed how the accessibility of zeolite acid site plays a crucial role in determining syngas conversion performance.