Abstract
ABSTRACTCarbon quantum dots (CQDs) were synthesized by a simple and economic hydrothermal method using Lycium barbarum (LB-CQDs) as precursor. Ammonia was used as a dopant to prepare nitrogen modified LB-CQDs (N-LB-CQDs). The characterizations of atomic force microscope, transmission electron microscopy, X-ray photoelectron spectroscopy showed that N-LB-CQDs were spherical in shape with an average diameter of 2∼5 nm. Its surface was rich in nitrogen-containing groups. The fluorescence spectrophotometer showed that N-LB-CQDs exhibited double peak emission. The two peak positions in photoluminescence were about 462 nm and 512 nm. The as-prepared N-LB-CQDs are high-fluorescent quantum yield and water soluble. In addition, iron selectively results in a strong fluorescence quenching of N-LB-CQDs. Theoretical research results verified that iron reduced energy gap between HOMO and LUMO of N-LB-CQDs greatly, which leads to its emission wavelength shift out of the visible range. Results from the study may shed light on the production of fluorescent and biocompatible CQDs with simple, economic and environmental benign strategy in which Lycium barbarum was used as a carbon source.
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