Background:
In recent years, environmental pollution and heavy metal pollution caused by rapid urbanization
and industrialization have become increasingly serious. Among them, mercury (II) ion (Hg2+) is one of the highly toxic
heavy metal ions, and its pollution comes from various natural resources and human activities. Therefore, people attach
great importance to the development of analytical methods for effective analysis and sensitive detection of Hg2+
.
Objective:
Using grape skin as a green and environmental friendly carbon source, to synthesize fluorescent carbon dots,
and try to apply them to the detect the concentration of Hg2+ in water.
Method:
Using "Hutai No. 8" grape skin as carbon source, fluorescent carbon dots were synthesized by one-step
hydrothermal method. Structure and fluorescent properties of the carbon dots were tested using TEM, XPS, XRD and
other characterization instruments, and their utilization on detection of mercury ions in the actual water samples was
explored.
Results:
The CDs had a particle size of about 4.8 nm and a spherical shape. There are N-H, C-N, C=O and other
functional groups on the surface. It was found that Hg2+ has obvious fluorescence quenching effect on CDs, and thus CDs
fluorescence quenching method to detect the concentration Hg2+ was established, and the detection limit is 3.7 μM, which
could be applied to test the concentration of Hg2+ in water samples.
Conclusion:
Using grape skin as carbon source, fluorescent carbon dots were successfully synthesized by hydrothermal
method. Carbon dots were used to detect mercury ions in water, and a method for detecting mercury ions in actual water
samples was established.
Hyperbranched polyglycerol conjugated fluorescent carbon dots with improved in vitro toxicity and red blood cell compatibility for bioimaging
