Hierarchical zeolites combine the intrinsic catalytic properties of microporous zeolites and
the enhanced access and transport of the additional meso-and/or macroporous system …

Microporous zeolites have proven to be of great importance in many chemical processes.
Yet, they often suffer from diffusion limitations causing inefficient use of the available …

The development of efficient and sustainable electrochemical systems able to provide clean-
energy fuels and chemicals is one of the main current challenges of materials science and …

Zinc-air batteries (ZABs) hold immense promise for energy storage due to their potential
advantages over existing technologies in terms of electrochemical performance, cost, and …

This perspective article gives the future research direction on the application of the
generalized Murray's law for the design of porous hierarchy in materials and the …

The objective of this review is to describe recent advances in preparation and reactivity of
hierarchical catalysts for catalytic cracking of carbonaceous materials consisting of not only …

A viable approach for methanol production under ambient physiological conditions is to use
greenhouse gases, methane (CH4) and carbon dioxide (CO2), as feed for immobilized …

An unprecedented type of Hf-doped silica nanotubes was synthesized using a
straightforward one-pot sol–gel procedure. The well-defined nanotubes with a diameter of …

In order to further enhance catalytic activity and inhibit carbon formation, the hierarchical
structure-performance relationship has been investigated in dry reforming of methane …

Hierarchically porous zeolites are promising candidates in catalytic conversion of relatively
bulky molecules, and their syntheses have attracted significant attention. From both …