The design and development of materials at the nanoscale has enabled efficient, cutting‐
edge renewable energy storage, and conversion devices such as solar cells, water splitting …

In recent years, III–V semiconductor nanowires have been widely investigated for infrared
photodetector applications due to their direct and suitable bandgap, unique optical and …

Selective area epitaxy (SAE) can be used to grow highly uniform III–V nanostructure arrays
in a fully controllable way and is thus of great interest in both basic science and device …

Abstract The transparent NiO/Tm: CeO 2 QDs/SnO 2 pn junction device is prepared via a
continuous hydrothermal-chemical-sputtering method. There, the SnO 2 nanosheets arrays …

Highly sensitive photodetectors with single‐photon level detection are one of the key
components to a range of emerging technologies, in particular the ever‐growing field of …

In this article, we have performed a comparative analysis of six different types of
nanostructures that can improve photon management for photovoltaic applications. These …

III–V semiconductors such as InP and GaAs are direct bandgap semiconductors with
significantly higher absorption compared to silicon. The high absorption allows for the …

Chemiresistive sensing is one of the most promising technologies for portable and
miniaturized chemical sensing, with applications ranging from air quality monitoring to …

Abstract III-V nanowire (NW) solar cells (SCs) promise a comparable efficiency to that of their
planar counterparts with additional advantage of reduced material consumption to cut the …

Nanophotonics—the science and technology of confining, guiding, and making photons
interact with matter at the nanoscale—is an active research field. By varying the geometry …