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

Combining materials science, artificial intelligence (AI), physical chemistry, and other
disciplines, materials informatics is continuously accelerating the vigorous development of …

Graphene and other two-dimensional (2D) materials can be used to create electronic and
optoelectronic devices. However, their development has been limited by the lack of effective …

Electrostatic capacitors are foundational components of advanced electronics and high-
power electrical systems owing to their ultrafast charging-discharging capability …

The concept of remote epitaxy involves a two-dimensional van der Waals layer covering the
substrate surface, which still enable adatoms to follow the atomic motif of the underlying …

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 …

2D semiconductors have interesting physical and chemical attributes that have led them to
become one of the most intensely investigated semiconductor families in recent history …

Over the past 70 years, the semiconductor industry has undergone transformative changes,
largely driven by the miniaturization of devices and the integration of innovative structures …

Advanced heterogeneous integration technologies are pivotal for next-generation
electronics. Single-crystalline materials are one of the key building blocks for heterogeneous …

Flexible electronics has emerged as a continuously growing field of study. Two‐dimensional
(2D) materials often act as conductors and electrodes in electronic devices, holding …