researchers led by Prof. XU Wen from the Institute of Solid State Physics of
the Hefei Institutes of Physical Science (HFIPS), along with their
collaborators from the Southwest University in Chongqing, applied the Terahertz
time domain spectroscopy (THz TDS) to study the optoelectronic properties of
fluorescent carbon quantum dots (FQCDs).
Carbon quantum dots (CQDs) are a class of zero-dimensional carbon materials, which have drawn great attention due to their outstanding optical and optoelectronic properties. It is an environmental-friendly material promising for realization of full-color lighting and displays, in which case, the FCQDs should be used in solid state.
This time, the research group prepared two kinds of FCQDs, which could emit bright blue (B-CQDs) and red (R-CQDs) lights in solutions under optical excitation.
After studying the THz optoelectronic response of dry FCQD particles with temperature range from 80 to 280 K, they found that R-CQDs behaved like an optical insulator in 0.2—1.2 THz range, while B-CQDs experienced insulator-to-semiconductor transition with increasing THz radiation frequency and temperature. Optical conductance and key physical parameters of FCQDs could be deduced from THz transmittance spectra.
These results explain the mechanism of this phenomenon and would lead to more sufficient understanding of the basic physical properties of FCQDs.
This is the first time scientists applied the THz TDS to the investigation of dry CQDs. And an interesting phenomenon of insulator-to-semiconductor transition in FCQDs in THz bandwidth was observed experimentally, indicating that the CQDs can be utilized to realize the advanced THz optoelectronic materials and devices.