Metal–organic frameworks (MOFs) are intrinsically porous extended solids formed by
coordination bonding between organic ligands and metal ions or clusters. High electrical …

The 21st century has seen a reinvention of how modern electronics impact our daily lives;
silicon-electronics and organic electronics are currently at the core of modern electronics …

The use of conductive MOFs (c‐MOFs) in zinc‐based batteries has been a popular research
direction. Zinc‐based batteries are widely used with the advantages of high specific capacity …

Owing to their molecular building blocks, yet highly crystalline nature, metal–organic
frameworks (MOFs) sit at the interface between molecule and material. Their diverse …

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 …

Reversible oxygen conversion is important for various green energy technologies. Herein
we synthesize a series of bimetallic coordination polymers by varying the Ni/Co ratio and …

Conjugated coordination polymers (CCPs), which possess long-range planar π–d
conjugation, are fascinating for various applications because they inherit the merits of both …

Aprotic Li− O2 batteries have attracted extensive attention in the past decade owing to their
high theoretical energy density; however, they are obstructed by the sluggish reaction …

Metal-organic frameworks (MOFs) are porous crystalline materials intensively studied for
electrochemical applications. However, low charge conductivity is the primary obstacle …

Zirconium-based metal–organic frameworks (Zr-MOFs) have aroused enormous interest
owing to their superior stability, flexible structures, and intriguing functions. Precise control …