Carbon nanomaterials are a class of low-dimensional materials that have aroused a great
deal of interest in the past 30 years since the spectacular debut of fullerene, the first member …

Nanoscale systems are forecast to be a means of integrating desirable attributes of
molecular and bulk regimes into easily processed materials. Notable examples include …

We have studied the exciton properties of single-wall carbon nanotubes by solving the
Bethe-Salpeter equation within tight-binding models. The screening effect of the π electrons …

The goal of this chapter is to review the importance of excitons to single-wall carbon
nanotube (SWNT) optics. We have developed the presentation for both researchers in the …

The optical transitions of semiconducting carbon nanotubes have been ascribed to excitons.
Here we use two-photon excitation spectroscopy to measure exciton binding energies, as …

Many properties of single‐walled carbon nanotubes (SWCNTs) make them ideal candidates
for sensors, particularly for biological systems. Both their fluorescence in the near‐infrared …

Abstract Several two-dimensional (2D) materials such as graphene, molybdenum disulfide,
or boron nitride are emerging as alternatives for lubrication additives to control friction and …

Twisted bilayer graphene (t BLG) is a metallic material with two degenerate van Hove
singularity transitions that can rehybridize to form interlayer exciton states. Here we report …

We report studies of the temperature dependence of the photoluminescence efficiency of
single walled carbon nanotubes which demonstrate the role of bright and dark excitons. This …

The characteristics of nanoscale excitons the primary excited states of nanoscale systems
like conjugated polymers, molecular aggregates, carbon nanotubes, and nanocrystalline …