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- Title
High-Purity Carbon Dots Prepared by Modulating Morphology of Carbon Nano-Crystals: In Vitro and In Vivo Multi-Color Bioimaging.
- Authors
Huo, Feng; Tang, Yuran; Liu, Yuhang; Tan, Chao; Chang, Lin; Mirza, Zakaria; Zhang, Wei
- Abstract
Due to the unique optical properties and excellent biological applications, carbon-based luminescent materials have become a research hotspot in recent years. In this paper, we report a synthesis method under mild condition, in which Carbon NanoCrystals (CNCs) were first prepared, and then high-purity multi-color carbon dots (HPMCCDs) were synthesized by modulating crystal morphology. The prepared nonfluorescent CNCs are, respectively, dissolved in a strong polar solvent and a weak polar solvent to prepare HPMCCDs. It exhibits the multi-excitation and multi-emission features (from green to yellow). The high-purity carbon dots (HPCDs) prepared by using this method demonstrate the higher quantum yields (QYs) (53.7%) than that of the carbon dots (CD) by traditional hydrothermal methods with dialysis, and make full use of the atomic economic model. Besides, it shows the unique up-conversion luminescence property (UCLP) at lower wavelength excitation and, which can also be placed for a long time at room temperature without being oxidized or deteriorated. Furthermore, we explored the regulation of polar-chromism mechanism of the CNCs. Finally, the HPMCCDs can be used for multi-color bioimaging in vivo and in vitro and as well as many other potential applications. A synthesis method under the mild condition, in which carbon nanocrystals (Carbon Nano-Crystals, CNCs) were firstly prepared, and then high-purity multi-color carbon dots (HPMCCDs) were synthesized by modulating crystal morphology, was reported. The CNCs are respectively dissolved in a strong polar solvent and a weak polar solvent to obtain the HPMCCDs. The prepared HPMCCDs exhibit multi-excitation, multi-emission and unique up-conversion luminescence features. Furthermore, the regulation of polar-chromism mechanism of the CNCs was explored. Finally, the HPMCCDs can be used for multi-color bioimaging.
- Subjects
CELLULOSE nanocrystals; POLAR solvents; CRYSTAL morphology; CARBON; ATOMIC models; OPTICAL properties; GEOLOGIC hot spots
- Publication
NANO, 2019, Vol 14, Issue 12, pN.PAG
- ISSN
1793-2920
- Publication type
Article
- DOI
10.1142/S1793292019501509