The direct transformation of methane to methanol remains a significant challenge for
operation at a larger scale. Central to this challenge is the low reactivity of methane at …

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 …

In the past decade or so, small-pore zeolites have received greater attention than large-and
medium-pore molecular sieves that have historically dominated the literature. This is …

Microporous zeolites that can act as heterogeneous catalysts have continued to attract a
great deal of academic and industrial interest, but current progress in their synthesis and …

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

In this critical review we examine the current state of our knowledge in respect of the nature
of the active sites in copper containing zeolites for the selective conversion of methane to …

Cu-exchanged zeolites possess active sites that are able to cleave the C–H bond of
methane at temperatures≤ 200° C, enabling its selective partial oxidation to methanol …

Copper-exchanged zeolites can continuously and selectively catalyze the partial oxidation
of methane to methanol using only oxygen and water at low temperatures, but the genesis …

The NH3-mediated selective catalytic reduction (NH3-SCR) of NOx over Cu-ion-exchanged
chabazite (Cu-CHA) catalysts is the basis of the technology for abatement of NOx from …

We review the structural chemistry and reactivity of copper-exchanged molecular sieves with
chabazite (CHA) topology, as an industrially applied catalyst in ammonia mediated …