Multicomponent reactions (MCRs) combine at least three reactants to afford the desired
product in a highly atom-economic way and are therefore viewed as efficient one-pot …

Covalent organic frameworks (COFs) are porous crystalline polymeric materials formed by
the covalent bonding of organic units. The abundant organic units library gives the COFs …

Nanofluidic membranes have been demonstrated as promising candidates for osmotic
energy harvesting. However, it remains a long-standing challenge to fabricate high …

Fabricating ultrathin covalent organic framework (COF) membranes toward high‐permeance
molecular separations is highly desired yet challenging. Herein, a polyelectrolyte‐mediated …

Precise and ultrafast ion sieving is highly desirable for many applications in environment‐,
energy‐, and resource‐related fields. The development of a permselective lamellar …

Controllable ion transport through nanochannels is crucial for biological and artificial
membrane systems. Covalent organic frameworks (COFs) with regular and tunable …

Heterogeneous membranes that exhibit an ionic diode effect are promising candidates for
osmotic energy conversion. However, existing heterogeneous membranes lack molecular …

Covalent organic frameworks (COFs) have showcased great potential in diverse
applications such as separation and catalysis, where mass transfer confined in their pore …

Design elements extracted from biological ion channels guide the engineering of artificial
nanofluidic membranes for efficient ionic transport and spawn biomimetic devices with great …

Osmotic power, also known as “blue energy”, is a vast, sustainable, and clean energy
source that can be directly converted into electricity by nanofluidic membranes. However …