The rapid advance of micro-/nanofabrication technologies opens up new opportunities for
miniaturized sensing devices based on novel three-dimensional (3D) architectures. Notably …

Because of its unique properties, titania (TiO2) represents a promising candidate in a wide
variety of research fields. In this paper, some of the properties and potential applications of …

Aluminum nitride (AlN) continues to kindle considerable interest in various
microelectromechanical system (MEMS)-related fields because of its superior optical …

Mechanical strain formed at the interfaces of thin films has been widely applied to self‐
assemble 3D microarchitectures. Among them, rolled‐up microtubes possess a unique 3D …

Strain-engineering of nanomembranes with pre-defined geometries leads to fabrication of
microtubular structures by lift-off technology, which provide tunable three-dimensional …

Vertical gold nanogaps are created on microtubular cavities to explore the coupling between
resonant light supported by the microcavities and surface plasmons localized at the …

Abstract The molybdenum disulfide (MoS2)-based photodetectors are facing two
challenges: the insensitivity to polarized light and the low photoresponsivity. Herein, three …

A significant step towards integrated vertically rolled-up microcavities is demonstrated by
interfacing an as-fabricated SiO 2 microtube optical ring resonator with tapered fibers. In this …

Rolled-up nanotech [1, 2] has opened up broad interdisciplinary research in areas ranging
from nanophotonics, nanoelectronics and magnetoelectronics to nanorobotics, biophysics …

Quantum sciences are revolutionizing computing and communication technologies, in which
single-photon emitters are the key components for creating strong quantum entanglement …