Progress in metal–organic frameworks (MOFs) has advanced from fundamental chemistry to
engineering processes and applications, resulting in new industrial opportunities. The …

Proton conductivity is the paramount property of proton‐conducting materials that are
playing significant roles in diverse electrochemical devices with applications in proton …

The idea of spatial confinement has gained widespread interest in myriad applications.
Especially, the confined short hydrogen-bond (SHB) network could afford an attractive …

As efficient alternative renewable energy resources, proton-exchange membrane fuel cells
(PEMFCs) have received immense attention where proton-conducting materials act as …

Stimuli-responsive metal–organic framework nanoparticles, NMOFs, provide a versatile
platform for the controlled release of drugs and biomedical applications. The porous …

To overcome the defects of traditional proton exchange membranes (PEMs)(Nafion and
Nafion-based membranes, etc.), the introduction of proton-conducting MOFs with …

Abstract Metal-organic frameworks (MOFs)/porous coordination polymers (PCPs) have
emerged as a new family of conductive solid materials with outstanding performances in a …

The design of Faradaic battery electrodes that exhibit high rate capability and long cycle life
equivalent to those of the electrodes of electrical double-layer capacitors is a big challenge …

Metal–organic frameworks (MOFs) are an intriguing type of crystalline porous materials that
can be readily built from metal ions or clusters and organic linkers. Recently, MOF materials …

As porous materials, metal–organic frameworks (MOFs) have drawn increased attention and
are widely applied in various fields such as catalysis, gas/energy storage, chemical sensing …