Metal–organic frameworks (MOFs) have recently emerged as ideal electrode materials and
precursors for electrochemical energy storage and conversion (EESC) owing to their large …

As a class of porous materials with crystal lattices, metal–organic frameworks (MOFs),
featuring outstanding specific surface area, tunable functionality, and versatile structures …

Rational exploration of efficient, inexpensive, and robust electrocatalysts is critical for the
efficient water splitting. Conjugated conductive metal–organic frameworks (cMOFs) with …

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 …

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

The achievement of bifunctional metal‐organic frameworks (MOFs) remains a huge
challenge due to their lack of dual active sites. Herein, dual sites in the Co‐catecholate (Co …

Metal-organic frameworks (MOFs) are novel crystalline porous materials assembled from
metal ions and organic ligands. The adaptability of their design and the fine-tuning of the …

Two‐dimensional conductive metal‐organic frameworks (2D‐c‐MOFs) have attracted
extensive attention owing to their unique structures and physical‐chemical properties …

Open framework materials (OFM) constitute a large and growing class of nanoporous
crystalline structures that is attracting considerable attention for electronic device …

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