Hexagonal boron nitride (h‐BN) has emerged as a strong candidate for two‐dimensional
(2D) material owing to its exciting optoelectrical properties combined with mechanical …

The integration of dissimilar materials into heterostructures has become a powerful tool for
engineering interfaces and electronic structure. The advent of 2D materials has provided …

Overlaying two atomic layers with a slight lattice mismatch or at a small rotation angle
creates a moiré superlattice, which has properties that are markedly modified from (and at …

Miniaturized computational spectrometers, which can obtain incident spectra using a
combination of device spectral responses and reconstruction algorithms, are essential for on …

Triggered by the growing needs of develo** semiconductor devices at ever‐decreasing
scales, strain engineering of 2D materials has recently seen a surge of interest. The goal of …

With compact footprint, low energy consumption, high scalability, and mass producibility,
chip‐scale integrated devices are an indispensable part of modern technological change …

The recent discovery of correlated insulator states and superconductivity in magic-angle
twisted bilayer graphene, has enabled the experimental investigation of electronic …

Multilayer hexagonal boron nitride (hBN) can be used to preserve the intrinsic physical
properties of other two-dimensional materials in device structures. However, integrating the …

The demand for computing power has been increasing exponentially since the emergence
of artificial intelligence (AI), internet of things (IoT), and machine learning (ML), where novel …

Designer heterostructures can now be assembled layer-by-layer with unmatched precision
thanks to the recently developed deterministic placement methods to transfer two …