Precise control of the pore size and environment of metal–organic framework (MOF) is a
necessary condition for achieving high performance of gas adsorption and separation. After …

The high gravimetric energy density and environmental benefits place hydrogen as a
promising alternative to the widely used fossil fuels, which is however impeded by the lack of …

When designing metal–organic frameworks (MOFs), linker design is one of the most
important factors in constructing a wide variety of structures. Judicious choice of linker size …

The separation of related molecules with similar physical/chemical properties is of prime
industrial importance and practically entails a substantial energy penalty, typically …

After three decades of intense and fundamental research on metal–organic frameworks
(MOFs), is there anything left to say or to explain? The synthesis and properties of MOFs …

Natural gas (NG), whose main component is methane, is an attractive fuel for vehicular
applications. Realization of safe, cheap and convenient means and materials for high …

In the global transition to a sustainable low‐carbon economy, CO2 capture and storage
technology still plays a critical role for deep emission reduction, particularly for the stationary …

This review highlights various design and synthesis approaches toward the construction of
ZMOFs, which are metal–organic frameworks (MOFs) with topologies and, in some cases …

In this review, we describe two recently implemented conceptual approaches facilitating the
design and deliberate construction of metal–organic frameworks (MOFs), namely …

Metal-organic frameworks (MOFs) are the most promising porous adsorbents for methane
storage; however, the highest reported storage capacities of about 270 cm 3 (STP) cm− 3 at …