4.7 Article

Carbon dots structural characterization by solution-state NMR and UV-visible spectroscopy and DFT modeling

Journal

APPLIED SURFACE SCIENCE
Volume 564, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.apsusc.2021.150195

Keywords

Kind of Carbon dots; Glucose; Characterization; solution-state NMR; UV-visible; IR; DFT; TDDFT

Funding

  1. SGCyTUNS [PGI-UNS 24/Q097, PGI-UNS 24/F072]
  2. ANPCyT [PICT20164094]

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The structural characterization of Carbon dots (Cdots) was conducted using a combination of experimental and theoretical results, correlating synthesis methods with spectroscopic data to identify Polymer dots (PDs) and/or polymer Carbon dots (PCDs) structures. Density functional theory calculations were utilized to predict UV-visible and IR spectra behavior, providing a useful tool for understanding Cdots structures.
A combination of experimental and theoretical results was used for the structural characterization of Carbon dots (Cdots). The synthesis of the Cdots was performed using glucose as a precursor and via the microwave method (bottom-up route) as a simple and environmentally friendly method. The experimental data obtained by UV-visible, fluorescence, IR and solution-state NMR spectroscopy techniques were correlated with density functional theory calculations results. Particularly, the results obtained by solution-state NMR spectroscopy suggested Cdots structures of Polymer dots (PDs) and/or polymer Carbon dots (PCDs) kind. PDs are characterized by being formed only of polymer structures and PCDs by being formed of a small carbonized core surrounded by polymer structures. Calculations allow us to predict the UV-visible absorption and IR spectra behavior of the species detected by the NMR technique, and propose a structure that can explain the experimentally observed features and infer the presence or absence of a carbon core in the proposed structures. Density of states curves were used to analyze and interpret the theoretical spectra peaks. Additionally, a calculation of the IR spectra for the models proposed, was performed. The complement of experimental and theoretical results represents a useful tool for the structural characterization of Cdots.

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