Low dimensional electrocatalytic heterostructures have recently attracted significant
attention in the catalysis community due to their highly tuneable interfaces and exciting …

This review summarizes the current advances of hetero-doped (Fe, Co, P, S, N)
nanostructures derived from MOFs (metal-organic frameworks) for the oxygen reduction …

Electrochemical enzyme-based biosensors are one of the largest and commercially
successful groups of biosensors. Integration of nanomaterials in the biosensors results in …

The families of MAX phases and their derivatives MXenes are constantly increasing in terms
of both composition and crystalline mixtures. In the last three years, numerous advances …

Recent days, aggregatable nanoparticles, which can specifically respond to certain stimulus,
have shown great potential in tumor-targeted drug delivery with prolonged retention and …

We show that downscaling the top-contact length to 13nm induces no penalty on the
electrical characteristics for CVD MoS 2 FETs. We demonstrate this for devices with different …

A two-dimensional (2D) heterobilayer system consisting of MoS2 on WSe2, deposited on
epitaxial graphene, is studied by scanning tunneling microscopy and spectroscopy at …

Driven by the need for enhanced integrated performance and rapid development of ultrathin
multitasked optical devices, this paper experimentally demonstrates monolayer direction …

Atomically thin layers of van der Waals (vdW) crystals offer an ideal material platform to
realize tunnel field‐effect transistors (TFETs) that exploit the tunneling of charge carriers …

The continuous miniaturization of field effect transistors (FETs) dictated by Moore's law has
enabled continuous enhancement of their performance during the last four decades …