Recent progress in emerging two-dimensional organic–inorganic van der Waals heterojunctions

Abstract: The latest advancements in two-dimensional organic–inorganic van der Waals heterojunctions, including their classification, construction, and device applications, elucidating their structure–property relationship based on interface engineering.

“…158,159 These heterostructures are typically created by stacking individual layers on top of each other in a precise manner, 22,160 allowing for the combination of different properties from each material layer. 161 The concept of 2D heterostructures has emerged as a promising avenue for engineering materials with tailored properties and functionalities beyond what is possible with individual 2D materials. 162,163 By combining different materials in a heterostructure or a superlattice, researchers can create interfaces with unique electronic, optical, and mechanical properties that are not present in the constituent materials alone.…”

Atomic engineering of two-dimensional materials via liquid metals

“…158,159 These heterostructures are typically created by stacking individual layers on top of each other in a precise manner, 22,160 allowing for the combination of different properties from each material layer. 161 The concept of 2D heterostructures has emerged as a promising avenue for engineering materials with tailored properties and functionalities beyond what is possible with individual 2D materials. 162,163 By combining different materials in a heterostructure or a superlattice, researchers can create interfaces with unique electronic, optical, and mechanical properties that are not present in the constituent materials alone.…”

Atomic engineering of two-dimensional materials via liquid metals

Rational construction of S-scheme ZnIn2S4/g-C3N4 heterojunction for effective sacrificial agent-free uranium photocatalysis in air

Enhanced carrier transport of monolayer MoSe₂ through interlayer coupling with in situ grown metal–organic frameworks