Se-doped NH2-functionalized graphene quantum dot for single-photon emission at free-space quantum communication wavelength

Arab, Hossein; Mohammadnejad, Shahram; MohammadNejad, Parizad

doi:10.1007/s11128-021-03122-z

Cited by 1 publication

(1 citation statement)

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“…Third, the graphene quantum dots for light emission favor uniform dot size, thickness, and surface functional groups to achieve narrowband light emission of precise spectral selection. Indeed, graphene quantum dots become an important building block for sensing, − quantum telecommunication, , spin computation, and anticounterfeiting techniques. , The reproducibility from batch to batch remains a great challenge to achieve atomic-level uniformity and doping of graphene over a large area.…”

Section: Types and Synthesis Of Graphenementioning

confidence: 99%

Applications of Graphene in Five Senses, Nervous System, and Artificial Muscles

et al. 2023

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Graphene remains of great interest in biomedical applications because of biocompatibility. Diseases relating to human senses interfere with life satisfaction and happiness. Therefore, the restoration by artificial organs or sensory devices may bring a bright future by the recovery of senses in patients. In this review, we update the most recent progress in graphene based sensors for mimicking human senses such as artificial retina for image sensors, artificial eardrums, gas sensors, chemical sensors, and tactile sensors. The brain-like processors are discussed based on conventional transistors as well as memristor related neuromorphic computing. The brain−machine interface is introduced for providing a single pathway. Besides, the artificial muscles based on graphene are summarized in the means of actuators in order to react to the physical world. Future opportunities remain for elevating the performances of human-like sensors and their clinical applications.

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