Emerging van der Waals materials exhibit a wide range of optical and electronic properties,
making them attractive for nanophotonic devices. Due to the nature of van der Waals …

The integration of two-dimensional (2D) van der Waals materials with nanostructures has
triggered a wide spectrum of optical and optoelectronic applications. Photonic structures of …

Numerous optical phenomena and applications have been enabled by nanophotonic
structures. Their current fabrication from high refractive index dielectrics, such as silicon (Si) …

With the advance of on-chip nanophotonics, there is a high demand for high-refractive-index
and low-loss materials. Currently, this technology is dominated by silicon, but van der Waals …

The integration of functional nanomaterials and heterostructures with photonic architectures
has laid the foundation for important photonic and optoelectronic applications. The advent of …

Polaritons are hybrid excitations of matter and photons. In recent years, polaritons in van der
Waals nanomaterials—known as van der Waals polaritons—have shown great promise to …

Efficient nanophotonic devices are essential for applications in quantum networking, optical
information processing, sensing, and nonlinear optics. Extensive research efforts have …

The outstanding chemical and physical properties of 2D materials, together with their
atomically thin nature, make them ideal candidates for metaphotonic device integration and …

Nanophotonic devices, composed of metals, dielectrics, or semiconductors, enable precise
and high-spatial-resolution manipulation of electromagnetic waves by leveraging diverse …

Abstract Two-dimensional (2D) crystals have renewed opportunities in design and assembly
of artificial lattices without the constraints of epitaxy. However, the lack of thickness control in …