Dynamic covalent polymer networks (DCPN) have historically attracted attention for their
unique roles in chemical recycling and self-healing, which are both relevant for sustainable …

The crystal–liquid–glass phase transition of coordination polymers (CPs) and metal–organic
frameworks (MOFs) offers attractive opportunities as a new class of amorphous materials …

Separation technology is central to industries as diverse as petroleum, pharmaceuticals,
mining and life sciences. Metal–organic cages, a class of molecular containers formed via …

The exciting advancements in 3D-printing of soft materials are changing the landscape of
materials development and fabrication. Among various 3D-printers that are designed for soft …

There is growing interest in metal–organic cages (MOCs) as porous materials owing to their
processability in solution. The discrete molecular character and surface features of MOCs …

Metal–organic cages (MOCs) are discrete, supramolecular entities that consist of metal
nodes and organic linkers, which can offer solution processability and high porosity …

Metal–organic gels (MOGs) emerged as a novel class of functional soft materials in which
the scaffolding framework is fabricated by metal–ligand coordination in combination with …

Over the past 20 years, the field of polymer mechanochemistry has amassed a toolbox of
mechanophores that translate mechanical energy into a variety of functional responses …

Polymer networks, which are materials composed of many smaller components—referred to
as “junctions” and “strands”—connected together via covalent or non‐covalent …

As research into metal–organic frameworks (MOFs) enters its third decade, efforts are
naturally shifting from fundamental studies to applications, utilizing the unique features of …