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 …

Despite technical efforts and upgrades, advances in complementary metal–oxide–
semiconductor circuits have become unsustainable in the face of inherent silicon limits. New …

A grand family of two-dimensional (2D) materials and their heterostructures have been
discovered through the extensive experimental and theoretical efforts of chemists, material …

Abstract Two-dimensional (2D) semiconductors have attracted tremendous interest as
atomically thin channels that could facilitate continued transistor scaling. However, despite …

High dielectric constant (high-κ) gate dielectrics compatible with two-dimensional (2D)
semiconductors are essential for scaled optoelectronic devices. However, conventional …

Flexible electronics have recently gained considerable attention due to their potential to
provide new and innovative solutions to a wide range of challenges in various electronic …

Atomically thin molybdenum disulfide (MoS2) is a promising semiconductor material for
integrated flexible electronics due to its excellent mechanical, optical and electronic …

Hexagonal boron nitride (h‐BN), an insulating 2D layered material, has recently attracted
tremendous interest motivated by the extraordinary properties it shows across the fields of …

Material integration strategies, such as epitaxial growth, usually involve strong chemical
bonds and are typically limited to materials with strict structure matching and processing …

Two-dimensional semiconductors such as layered transition metal dichalcogenides can
offer superior immunity to short-channel effects compared with bulk semiconductors such as …