Abstract Two-dimensional (2D) transition metal dichalcogenides (TMDCs) and graphene
compose a new family of crystalline materials with atomic thicknesses and exotic …

Graphene has demonstrated great potential in next-generation electronics due to its unique
two-dimensional structure and properties including a zero-gap band structure, high electron …

The use of Raman spectroscopy for carbon nanotube applications is presented here as a
tutorial review. After introducing the relevant basic aspects of Raman spectroscopy of …

Straintronics of two-dimensional (2D) materials offers enormous promise for both
fundamental research and smart technologies. Strain engineering of 2D materials has …

Piezoelectric and ferroelectric materials have shown great potential for control of the optical
process in emerging materials. There are three ways for them to impact on the optical …

Photonic and optoelectronic devices have been limited in most two-dimensional (2D)
materials. Researchers have attempted diverse device structures, such as introducing some …

Tuning the luminescence of phosphors is extremely important in controlling and processing
light for active components of light sources, optical sensing, display devices, and …

Thin membranes, such as monolayer graphene of monoatomic thickness, are bound to
exhibit lateral buckling under uniaxial tensile loading that impairs its mechanical behaviour …

With the further development of Moore's law, the process nodes of integrated circuit have
reached 7 nm or even smaller size. In addition to the significant increase in cost, when the …

Metallic nanostructures are widely used for surface-enhanced Raman spectroscopy (SERS).
Nanoscale surface corrugation significantly affects the localized plasmon response and the …