A critical review of different prominent nanotechnologies adapted to catalysis is provided,
with focus on how they contribute to the improvement of selectivity in heterogeneous …

Although C–H functionalization is one of the simplest reactions, it requires the use of highly
active and selective catalysts. Recently, C–H-active transformations using porous materials …

The variety of functionalities and porous structures inherent to metal-organic frameworks
(MOFs) together with the facile tunability of their properties makes these materials suitable …

Metal–organic frameworks (MOFs) are a class of distinctive porous crystalline materials
constructed by metal ions/clusters and organic linkers. Owing to their structural diversity …

Enzymes have evolved to catalyse challenging chemical transformations with high efficiency
and selectivity. Although a number of artificial systems have been developed to recapitulate …

Nowadays, there is much research focused on advanced technologies for energy storage
and conversion in order to mitigate environmental pollution and address concerns on future …

The modular nature of metal–organic frameworks (MOFs) enables synthetic control over
their physical and chemical properties, but it can be difficult to know which MOFs would be …

Metal organic frameworks (MOFs) have drawn wide attention as potential catalysts, offering
high densities of catalytic sites in high-area porous solids, some with stabilities at high …

The separation of ethane from its corresponding ethylene is an important, challenging, and
energy-intensive process in the chemical industry. Here we report a microporous metal …

Bimetallic metal–organic frameworks (MOFs) have two different metal ions in the inorganic
nodes. According to the metal distribution, the architecture of bimetallic MOFs can be …