We present a simple but robust strategy to engineering heteroatoms (N, S) on carbon dots (CDs) surface that results in a collection of enhanced photoluminescence (PL) emissions. The use of… Click to show full abstract
We present a simple but robust strategy to engineering heteroatoms (N, S) on carbon dots (CDs) surface that results in a collection of enhanced photoluminescence (PL) emissions. The use of citric acid (CA) and 2-Imidazolidinethione (2-IZT) as precursors was envisioned to study the impact of thermolysis process on the PL properties. The proposed strategy, implemented at two different temperatures (180 °C and 200 °C), is suitable to produce CDs with tunable PL and quantum yield (QY) up to ∼32%. Similar to earlier reports of CA-based CDs, the self-assembling of fluorophores integrated into the CDs edge is hypothesized, however, in our CDs a double intriguing effect of blue- and red-shifting can be observed for PL as the wavelength of excitation is increased in the range 280-480 nm. Through a comprehensive characterization and evaluation of these CDs in water suspensions, the mechanisms that lead to PL multifarious emissions are proposed.
               
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