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Carbon Quantum Dot Optical Properties for potential infiltration into Hollow Core Photonic Crystal Fibers

Authors:	Eurydice Arroyo Diana Tentori Alfonso Garcia Ricardo Valdez Miguel A Armenta Osvaldo J Nava Roberto Machorro Amelia Olivas

Institution:	1. Div. Física Aplicada, Centro de Investigación Científica y de Educación Superior de Ensenada, Carr. Tijuana-Ensenada 3918, Zona Playitas, 22860 Ensenada, Baja California, Mexico Departamento de Ingenieria Industrial, Tecnológico Nacional de México/Instituto Tecnológico de Ensenada, Blvd. Tecnológico #150, Ex Ejido Chapultepec, 22780 Ensenada, Baja California, Mexico;2. Div. Física Aplicada, Centro de Investigación Científica y de Educación Superior de Ensenada, Carr. Tijuana-Ensenada 3918, Zona Playitas, 22860 Ensenada, Baja California, Mexico;3. Centro de Graduados e Investigación en Química, Tecnológico Nacional de México/Instituto Tecnológico de Tijuana, Blvd. Industrial s/n, Cd Industrial, 22430 Tijuana, Baja California, Mexico;4. Departamento de Ingeniería en Geociencias, Universidad Estatal de Sonora, Av. Guerrero Sur 917, Magdalena de Kino, Sonora, 84160 Mexico;5. Facultad de Ingeniería Arquitectura y Diseño, Universidad Autónoma de Baja California, Carr. Tijuana-Ensenada s/n, Zona Playitas, 22860 Ensenada, Baja California, Mexico;6. Centro de Nanociencias y Nanotecnología, Universidad Nacional Autónoma de Mexico, Carr. Tijuana-Ensenada 3918, Zona Playitas, 22860 Ensenada, Baja California, Mexico

Abstract:	Carbon quantum dots (CQD) have received significant attention in recent years due to their potential applications in optics and sensing. In this study, the authors report on the first characterization of the optical activity and broad absorption spectrum covering from short-wave ultraviolet, at 200 nm, to mid-infrared, at 1600 nm, of CQD synthesized using the “low-molecular-weight alcohols electrochemical carbonization” method. The CQD are analyzed using spectroscopic techniques, optical activity in the infrared, and high-resolution transmission electron microscopy. Results show a CQD size distribution of 5±3 nm and spherical morphology. The absorption spectra show increased absorption at both, high and low frequency. Additionally, the specific rotation of the CQD solution is significantly higher than that of pure ethanol, by three orders of magnitude. These findings suggest that CQD may have potential applications in polarized infrared filters and/or sensors due to their ability to rotate the polarization state of light at 1550 nm. The results of this study provide valuable insights into the optical properties of CQD and their potential for infiltration into hollow core photonic crystal fibers, making them a promising material for future research and development in the field of optics and sensing.

Keywords:	carbon quantum dots optical activity photonic crystal fibers refraction index specific rotation

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