Carbon quantum dots-functionalized silica stationary phase for pharmaceutical analysis by a green liquid chromatography mode.

Facing the trends of green chemistry, this work tries to find a novel material for per aqueous liquid chromatography (PALC) aiming to reduce the consumption of hazardous reagents. As a kind of green nanomaterials, the chromatographic performance of carbon quantum dots (CQDs) in PALC was rarely studied. Here, hydrophilic CQDs were prepared by a simple hydrothermal method using citric acid and ethylenediamine as carbon sources. The synthesized CQDs with functional groups of amino, carboxyl, and hydroxyl were decorated on silica gels forming a novel Si-CQDs stationary phase. This Si-CQDs column possesses the typical retention feature of PALC. Compounds with different polarities including hydrophobic pesticides, polar sulfonamides, β-adrenoceptor blockers and agonists, as well as hydrophilic nucleosides and bases obtained satisfactory separation on this Si-CQDs column under PALC mode, even better resolution than in hydrophilic interaction liquid chromatography (HILIC) mode. A mixture of four sulfonamides can be separated within 6 min using a mobile phase containing only 5% acetonitrile, and the resolution achieves 2.39, 2.13, and 1.83 with an average column efficiency of 1400. For certain compounds, this Si-CQDs column showed better separation performance than commercial SiO2 column, NH2 column, and C18 column. The retention mechanism includes hydrophobic and electrostatic interactions due to the multifunctional groups of CQDs. This Si-CQDs column achieved the rapid detection of residual sulfonamides in milk with simplified sample pretreatment process and the detection of atenolol in commercial atenolol tablets. The developed Si-CQDs column has great prospects in low-cost and environmentally friendly separation and analysis.