Energy harvesting modules play an increasingly important role in the development of
autonomous self‐powered microelectronic devices. MXenes (ie, 2D transition metal …

Artificial ion channels with ion permeability and selectivity comparable to their biological
counterparts are highly desired for efficient separation, biosensing, and energy conversion …

Greenhouse gas emissions associated with power generation from fossil fuel combustion
account for 25% of global emissions and, thus, contribute greatly to climate change …

Multifunctional wearable heater has attracted great interest in personal thermal
management, but its potential safety hazards triggered by overheat remain. Herein, in order …

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

Bioinspired asymmetric nanofluidic ion channels with ionic diode behavior that can boost
the osmotic energy (so‐called blue energy) conversion are highly desirable, especially if …

Introducing alien intercalations to sub-nanometer scale nanochannels is one desirable
strategy to optimize the ion transportation of two-dimensional nanomaterial membranes for …

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

Self‐powered wearable devices with integrated energy supply module and sensitive
sensors have significantly blossomed for continuous monitoring of human activity and the …

Extracting osmotic energy through nanoporous membranes is an efficient way to harvest
renewable and sustainable energy using the salinity gradient between seawater and river …