Zeolites have been widely used as catalysts, ion exchangers, and adsorbents since their
industrial breakthrough in the 1950s and continue to be state-of the-art adsorbents in many …

C1 chemistry, which is the catalytic transformation of C1 molecules including CO, CO2, CH4,
CH3OH, and HCOOH, plays an important role in providing energy and chemical supplies …

Zeolites are versatile catalysts and molecular sieves with large topological diversity, but
managing phase competition in zeolite synthesis is an empirical, labor-intensive task. In this …

Microporous zeolite-type materials, with crystalline porous structures formed by well-defined
channels and cages of molecular dimensions, have been widely employed as …

We combine experiment and theory to investigate the cooperation or competition between
organic and inorganic structure-directing agents (SDAs) for occupancy within microporous …

Organic structure directing agents (OSDAs) play a crucial role in the synthesis of micro-and
mesoporous materials especially in the case of zeolites. Despite the wide use of OSDAs …

The methanol-to-olefins process over H-SAPO-34 is characterized by its high shape
selectivity toward light olefins. The catalyst is a supramolecular system consisting of …

The methanol‐to‐olefins reaction catalyzed by small‐pore cage‐based acid zeolites and
zeotypes produces a mixture of short chain olefins, whose selectivity to ethene, propene and …

Olefin selectivity and catalyst lifetime are two key metrics for industrial methanol-to-olefin
catalysts. Currently, it is very difficult to obtain high olefin selectivity and long catalyst lifetime …

Small pore zeolites with chabazite structure have been commercialized for selective catalytic
reduction (SCR) of nitrogen oxides (NO x) with ammonium (NH 3) from diesel exhaust …