sp 2 hybridized carbons constitute a broad class of solid phases composed primarily of
elemental carbon and can be either synthetic or naturally occurring. Some examples are …

Abstract Deep‐ultraviolet light, 200–300 nm in wavelength, interacts with nucleic acids and
proteins strongly compared to visible and infrared light. In this article, the interaction …

Heterostructure has triggered a surge of interest due to its synergistic effects between two
different layers, which contributes to desirable physical properties for extensive potential …

We systematically studied the Raman spectra of graphyne (GY) and graphdiyne (GDY),
analyzing their features under mechanical strain by group theory and first-principles …

Raman scattering plays a key role in unraveling the quantum dynamics of graphene,
perhaps the most promising material of recent times. It is crucial to correctly interpret the …

We present the resonant Raman spectra of a single-wall carbon nanotube inside a multiwall
boron nitride nanotube (SWNT@ BNNT). At EL= 1.58 eV, SWNT@ BNNT exhibited resonant …

In the spectral range from ultraviolet to near infrared, graphene lacks the capability to
support plasmon polaritons, and has low optical absorptivity for applications due to its …

The enhancement of light-matter interaction for monolayer graphene is of great importance
on many photonic and optoelectronic applications. With the aim of perfect ultraviolet trap** …

Van der Waals heterostructures combining hexagonal boron nitride (h-BN) and graphene
offer many potential advantages, but remain difficult to produce as continuous films over …

Enhancing the light–matter interaction of graphene is an important issue for related photonic
devices and applications. In view of its potential ultraviolet applications, we aim to achieve …