Low-dimensional semiconductor materials structures, where nanowires are needle-like one-
dimensional examples, have developed into one of the most intensely studied fields of …

All-photonic integrated circuits are promising platforms for future systems beyond the
limitation of Moore's law. Over the last several decades, one-dimensional (1D) nanowires …

The fast development of the Internet of Things (IoT) has driven an increasing consumer
demand for self‐powered gas sensors for real‐time data collection and autonomous …

The discovery and continued development of the laser has revolutionized both science and
industry. The advent of miniaturized, semiconductor lasers has made this technology an …

Nanowires are filamentary crystals with a tailored diameter that can be obtained using a
plethora of different synthesis techniques. In this review, we focus on the vapor phase …

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 …

Photoelectrochemical (PEC) reduction of CO2 with H2O is a promising approach to convert
solar energy and greenhouse gas into value-added chemicals or fuels. However, the exact …

Enhancing the light‐matter interactions is important for many different applications like
sensing, surface enhanced spectroscopies, solar energy harvesting, and for quantum effects …

III–V nanowires (NWs) have been envisioned as nanoscale materials for next-generation
technology with good functionality, superior performance, high integration ability and low …

Semiconductor nanowire lasers are promising as ultrasmall, highly efficient coherent light
emitters in the fields of nanophotonics, nano-optics and nanobiotechnology,. Although there …