AI Article Synopsis
- Researchers have successfully created sulphur doped fluorescent carbon dots, which are notable for their wide band gap of 4.43 eV and a high open circuit voltage of 617 mV, making them useful for solar cell applications.
- These carbon dots exhibit a fluorescence quantum yield of 11.8% without the need for additional surface treatment, allowing for their use as fluorescent probes in various applications.
- They are biocompatible and can effectively interact with gold nanoparticles and DNA-PEI complexes, producing bright blue fluorescence when exposed to a specific light wavelength.
Article Abstract
A facile route has been developed to synthesise and isolate sulphur doped fluorescent carbon dots for the first time. Such carbogenic quantum dots exhibit a wide band gap of 4.43 eV with a high open circuit voltage (V) of 617 mV along with a fill factor (FF) as high as 37%, using phenyl-C60-butyric acid methyl ester (PCBM) as the electron transporting layer. Besides the wide band gap, which is useful in the fabrication of solar cells, sulphur modified carbon dots also exhibit a high fluorescence quantum yield of 11.8% without any additional surface passivation, producing a unique fluorescent probe for further applications. In addition, the particles have a strong tendency to interact with the surface of gold nanoparticles and produce a thin fluorescent layer over their surfaces. Moreover, as they are completely biocompatible in nature, the highly fluorescent S-doped carbon dots have a strong potential for use in bioimaging applications. Interestingly, owing to the presence of oxygen and sulphur functionality, the highly negatively charged particles can easily bind with positively charged DNA-PEI complexes, simply by mixing them, and after interaction with DNA, bright blue fluorescence has been observed under an excitation wavelength of 405 nm .
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| http://dx.doi.org/10.1039/c3tb00583f | DOI Listing |
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