The exponential growth in the research field of water pollution control demands the
evolution of novel sensing materials for regulation and quantification of metals ions. Within
this context, the current work reports a new strategy for the synthesis of carbon dots from the
hydrothermal treatment of organic nanoparticles. The organic nanoparticles are found to be
selective towards Cs (I) ions with a detection limit of 5.3 nM, whereas the highly fluorescent
carbon dots are found to be selective towards Ag (I) ions with a detection limit of 4.8 nM …

The exponential growth in the research field of water pollution control demands the
evolution of novel sensing materials for regulation and quantification of metals ions. Within
this context, the current work reports a new strategy for the synthesis of carbon dots from the
hydrothermal treatment of organic nanoparticles. The organic nanoparticles are found to be
selective towards Cs (I) ions with a detection limit of 5.3 nM, whereas the highly fluorescent
carbon dots are found to be selective towards Ag (I) ions with a detection limit of 4.8 nM …