Carbon Dots with Up-Conversion Luminescence as pH Nanosensor

In this study, the up-conversion luminescence for aqueous suspensions of carbon dots with polyfunctional and carboxylated surfaces synthesized by a hydrothermal method was investigated. The obtained quadratic dependence of the luminescence intensity on the power of the exciting radiation indicates that the up-conversion luminescence of these carbon dots is caused by two-photon absorption. The optimal wavelength of the exciting radiation was determined for the studied samples. The dependences of the signal for the up-conversion luminescence of carbon dots on the pH value of the suspension were obtained. It was shown that these carbon dots can be used as the nanosensor of pH of liquid media in a wide range of pH values. The advantage of this nanosensor is that the excitation of the up-conversion luminescence of carbon dots does not entail excitation of autoluminescence of the biological medium. It expands the possibilities of using this sensor in biomedical applications.

Automated summary

The up-conversion luminescence of carbon dots with polyfunctional and carboxylated surfaces synthesized by a hydrothermal method was investigated. The luminescence intensity was found to depend quadratically on the power of the exciting radiation, indicating two-photon absorption as the cause. The carbon dots were shown to be effective nanosensors for pH measurement in liquid media, with the advantage of not exciting autoluminescence of the biological medium.