Solid-state quantum devices use quantum entanglement for various quantum technologies,
such as quantum computation, encryption, communication and sensing. Solid-state …

Graphene and the following derivative 2D materials have been demonstrated to exhibit rich
distinct optoelectronic properties, such as broadband optical response, strong and tunable …

As one of important approaches of light emission, chemiluminescence (CL) induced by
chemical reactions has evoked considerable interest for its potential applications in …

Bottom‐up synthesized graphene nanostructures, including 0D graphene quantum dots and
1D graphene nanoribbons, have recently emerged as promising candidates for efficient …

As a new class of carbonaceous form, graphene quantum dots (GQDs), which are zero-
dimensional nanoparticles that arise from diverse carbonaceous forms, have garnered …

Graphene quantum dots (GQDs) have attracted significant interest as synthetically tunable
optoelectronic and photonic materials that can also serve as model systems for …

Quantum information science and engineering (QISE)—which entails the use of quantum
mechanical states for information processing, communications, and sensing—and the area …

A plethora of single-photon emitters have been identified in the atomic layers of two-
dimensional van der Waals materials,,,,,,–. Here, we report on a set of isolated optical …

Emergence of π-magnetism in open-shell nanographenes has been theoretically predicted
decades ago but their experimental characterization was elusive due to the strong chemical …

Carbon-based nanomaterials hold promise for eco-friendly alternatives to heavy-metal-
containing quantum dots (QDs) in optoelectronic applications. Here, boric acid …