Nanopore-based sensors have established themselves as a prominent tool for solution-
based, single-molecule analysis of the key building blocks of life, including nucleic acids …

Biomimetic and bio‐inspired membranes draw great attention and generate extensive efforts
to solve environmental, health, and energy issues. In this field, track‐etched membranes …

Environmental and energy problems have drawn much attention owing to rapid population
growth and accelerated economic development. For instance, photocatalysis,“a green …

Complex battery degradation is an interplay of different processes correlated to the
thermodynamic, chemical, and mechanical instability of materials. Their degradation kinetics …

Nanopore-based sensors typically work by monitoring transient pulses in conductance via
current–time traces as molecules translocate through the nanopore. The unique property of …

Solid‐state nanopores are fascinating objects that enable the development of specific and
efficient chemical and biological sensors, as well as the investigation of the physicochemical …

Atomic layer deposition (ALD) is a technology offering the possibility to prepare thin films of
high quality materials on high aspect ratio substrates with precise thickness control, high …

In nature, ion channels are highly selective pores and act as gate to ensure selective ion
transport, allowing ions to cross the membrane. By mimicking them, single solid state …

Since their introduction in 2001, solid-state nanopores have been increasingly exploited for
the detection and characterization of biomolecules ranging from single DNA strands to …

Atomic layer deposition (ALD) is a thin film deposition technique currently used in various
nanofabrication processes for microelectronic applications. The ability to coat high aspect …