A one-pot synthesis of fluorescent N,P-codoped carbon dots for vitamin B ₁₂ determination and bioimaging application

Iodine ion is one of the most indispensable anions in living organisms, particularly being an important substance for the synthesis of thyroid hormones. Curcumin is a yellow-orange polyphenol compound derived from the rhizome of Curcuma longa L., which has been commonly used as a spice and natural coloring agent, food additives, cosmetics as well as Chinese medicine. However, excess curcumin may cause DNA inactivation, lead to a decrease in intracellular ATP levels, and trigger the tissue necrosis. Therefore, quantitative detection of iodine and curcumin is of great significance in the fields of food and life sciences. Herein, we develop nitrogen-doped fluorescent carbon dots (NCDs) as a multi-mechanism detection for iodide and curcumin in actual complex biological and food samples, which was prepared by a one-step solid-phase synthesis using tartaric acid and urea as precursors without adding any other reagents. An assembled NCDs-Hg2+ fluorescence-enhanced sensor for the quantitative detection of I− was established based on a fluorescence “turn-off-on” mechanism in a linear range of 0.3–15 μM with a detection limit of 69.4 nM and successfully quantified trace amounts of I− in water samples and urine sample. Meanwhile, the as-synthesized NCDs also can be used as a fluorescent quenched sensor for curcumin detection based on the synergistic internal filtration effect (IFE) and static quenching, achieving a good linear range of 0.1–20 μM with a satisfactory detection limit of 29.8 nM. These results indicate that carbon dots are potential sensing materials for iodine and curcumin detection for the good of our health.

After thermal reduction, the quantum yield of thermally reduced carbon dots demonstrated a 5-fold increase over that of the original carbon dots. In this paper, a novel thermally-reduced carbon dot (t-CD) based fluorescence resonance energy transfer (FRET) sensor for the determination of vitamin B 12 (VB 12 ) in aqueous solutions is reported. Carbon dots (CDs) have attracted great attention due to their excellent tunable optical properties, low cost, easy fabrication and low toxicity, which make them ideal candidates for optical sensors. Through esterification reactions, blue luminescent t-CDs were prepared by the carbonization of citric acid and thermally reduced by a thermogravimetric analyzer. After thermal reduction, the quantum yield of the t-CDs demonstrated a 5-fold increase, which makes t-CDs excellent donors in the FRET process. The t-CDs were used to detect VB 12 with concentrations ranging from 1 to 12 μg ml −1 and their limit of detection (LOD) was as low as 0.1 μg ml −1 . The as-synthesized t-CD based optical probing technique is demonstrated to be simple, cost-effective, sensitive and selective for the detection of biologically significant VB 12 .