In recent years, two‐dimensional (2D) materials have attracted a lot of research interest as
they exhibit several fascinating properties. However, outside of 2D materials derived from …

Controlling atomic structure and dynamics with single-atom precision is the ultimate goal in
nanoscience and nanotechnology. Despite great successes being achieved by scanning …

We report on single atomic zero-dimensional (0D) pores fabricated using aberration-
corrected scanning transmission electron microscopy (AC-STEM) in monolayer MoS2. Pores …

We provide an overview of atom-scale apertures in solid-state membranes, from “pores” and
“tubes” to “channels”, with characteristic sizes comparable to the sizes of ions and water …

Abstract Two‐dimensional polymers (2DPs) are a class of atomically/molecularly thin
crystalline organic 2D materials. They are intriguing candidates for the development of …

Rapid sensing of molecules is increasingly important in many studies and applications, such
as DNA sequencing and protein identification. Here, beyond atomically thin 2D nanopores …

We fabricate on-chip solid-state nanofluidic-2D nanopore systems that can limit the range of
motion for DNA in the sensing region of a nanopore. We do so by creating devices …

Two-dimensional materials can be combined by placing individual layers on top of each
other, so that they are bound only by their van der Waals interaction. The sequence of layers …

Life detection on Mars is an important topic that includes a direct search for biomarkers. This
requires instruments for in situ biomarker detection that are compact, lightweight, and able to …

Creating sub-to few-nanometer defects and nanopores in hexagonal boron nitride (hBN)
opens opportunities for engineering quantum emitters and for nanofluidic and sensing …