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da Silva, Livia E.; Calado, Orlando Lucas de L.; de Oliveira Silva, Steffano Felix; da Silva, Kleyton Ritomar Monteiro; Henrique Almeida, James; de Oliveira Silva, Messias; Viana, Rodrigo da Silva; de Souza Ferro, Jamylle Nunes; de Almeida Xavier, Jadriane; Barbosa, Cintya. D.A.E.S.
Journal of colloid and interface science, 12/2023, Volume: 651Journal Article
Display omitted •A fast and simple synthesis of Carbon Dots from lemon bagasse (CD-L)•Chemical, morphological and optical properties for CD-L was investigated.•CD-L revealed significant anti-oxidant potential.•A methodology for obtaining carbon dots film (Film-L) was developed.•Film-L has been evaluated as an efficient luminescent thermometer. The design of luminescent nanomaterials for the development of nanothermometers with high sensitivity and free of potentially toxic metals has developed in several fields, such as optoelectronics, sensors, and bioimaging. In addition, luminescent nanothermometers have advantages related to non-invasive measurement, with their wide detection range and high spatial resolution at the nano/microscale. Our study is the first, to our knowledge, to demonstrate a detailed study of a fluorescent film (Film-L) thermal sensor based on carbon dots derived from lemon bagasse extract (CD-L). The CD-L properties were explored as an antioxidant agent; their cytotoxicity was evaluated by using a human non-tumoral skin fibroblast (HFF-1) cell line from an MTT assay. The CD-L were characterized by HRTEM, DLS, FTIR, UV–VIS, and fluorescence spectroscopy. These confirmed their particle size distribution below 10 nm, graphitic structure in the core and surface organic groups, and strong blue emission. The CD-L showed cytocompatibility behavior and scavenging potential reactive species of biological importance: O2•− and HOCl, with IC50 of 276.8 ± 4.0 and 21.6 ± 0.7, respectively. The Film-L emission intensities (I425 nm) are temperature-dependent in the 298 to 333 K range. The Film-L luminescent thermometer shows a maximum relative thermal sensitivity of 2.69 % K−1 at 333 K.
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