AI Article Synopsis
- Researchers synthesized and characterized a new molecule called perylene diimide based radical anion (PH2) using various electrochemical techniques.
- PH2 demonstrated stability in different oxygen environments and showed the ability to catalyze reactions that convert hydrogen peroxide (HO) to water, with notable performance metrics.
- The study also developed a glucose detection kit using PH2, capable of measuring low glucose levels in both water and blood serum, making it useful for biological assays.
Article Abstract
In this work, perylene diimide based radical anion (PH2) is synthesized and characterized using optical, NOBF methods; cyclic voltammetry (CV) and differential pulse voltammetry (DPV) techniques. The PH2 is stable for 120 min (2 h) in oxygenated environment and 273 min (4.5 h) in hypoxic conditions. The PH2 showed catalase-like activity to reduce HO to HO with turn-over number (TON) = 20 and turn-over frequency (TOF) = 40 h. The catalase-like activity can be measured using optical and electrochemical methods by monitoring the changes at 726 nm (absorbance); 585 nm (emission) and at 0.27 V. We were able to quantitatively monitor the ultra low-level concentrations of the HO as low as 320 fM (absorbance) and 200 fM (emission). Moreover, PH2 could be used as a chromogenic and fluorogenic substrate for monitoring the low-level concentrations of the glucose using GOx based biochemical assay. We have demonstrated the development and validation of the glucose assay kit for the detection of glucose as low as 3.6/2.8 nM in aqueous medium and 6.2/5.6 nM in blood serum.
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| http://dx.doi.org/10.1016/j.saa.2024.125438 | DOI Listing |
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