Owing to their atomic layer thickness, strong light–material interaction, high nonlinearity,
broadband optical response, fast relaxation, controllable optoelectronic properties, and high …

Laser-based approaches for graphene synthesis, reduction, modification, cutting and micro-
patterning have been developed and applied to the fabrication of various electronic devices …

Abstract 2D materials are under extensive research due to their remarkable properties
suitable for various optoelectronic, photonic, and biological applications, yet their …

As one of the rising 2D materials, niobium‐carbide (Nb2C, well‐known as a member of
MXene family) has attracted considerable attention owing to its unique physical and …

Photothermal responsive slippery surfaces with switchable superwettability are promising in
the fields of biomedicine, self-cleaning, anti-corrosion, and lab-on-a-chip systems. However …

The strong light–matter interaction in two dimensional (2D) materials portends an untapped
potential for fiber lasers in the long sought-after terahertz to mid-infrared spectral range …

Graphene is the strongest material ever studied and can be an efficient substitute for silicon.
This six-volume handbook focuses on fabrication methods, nanostructure and atomic …

By means of the ultrafast optical Kerr effect method coupled to optical heterodyne detection
(OHD-OKE), we characterize the third-order nonlinear response of graphene and compare it …

Exploration of novel nonlinear optical (NLO) chalcogenides with high laser‐induced
damage thresholds (LIDT) is critical for mid‐infrared (mid‐IR) solid‐state laser applications …

Graphene's chemical versatility is unique among two-dimensional materials. One of the
simplest and most well-studied chemical modifications of graphene is hydrogenation. The …