Optical Detection of Acetone Using “Turn-Off” Fluorescent Rice Straw Based Cellulose Carbon Dots Imprinted onto Paper Dipstick for Diabetes Monitoring

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Abstract

Persistent bad breath has been reported as a sign of serious diabetes health conditions.If an individual's breath has a strong odor of acetone, it may indicate high levels of ketones in the blood owing to diabetic ketoacidosis.Thus, acetone gas in the breath of patients with diabetes can be detected using the current easy-to-use fluorescent test dipstick.In another vein, rice straw waste is the most well-known solid pollutant worldwide.Thus, finding a simple technique to change rice straw into a valuable material is highly important.A straightforward and environmentally friendly approach for reprocessing rice straw as a starting material for the creation of fluorescent nitrogen-doped carbon dots (NCDs) has been established.The preparation process of NCDs was carried out via one-pot hydrothermal carbonization using NH4OH as a passivation substance.A testing strip was developed on the basis of cellulose CD nanoparticles (NPs) immobilized onto cellulose paper assay.The NCDs demonstrated a quantum yield of 23.76%.A fluorescence wavelength was detected at 443 nm upon applying an excitation wavelength of 354 nm.NCDs demonstrated remarkable selectivity for acetone gas as their fluorescence was definitely exposed to quenching by acetone as a consequence of the inner filter effect.A linear correlation was observed across the concentration range of 0.5−150 mM.To detect and measure acetone gas, the present cellulose paper strip has a “switch off” fluorescent signal.A readout limit was accomplished for an aqueous solution of acetone as low as 0.5 mM under ambient conditions.The chromogenic fluorescence of the cellulose assay responsiveness depends on the fluorescence quenching characteristic of the cellulose carbon dots in acetone.A thin fluorescent cellulose carbon dot layer was deposited onto the surface of cellulose strips by a simple impregnation process.CDs were made using NP morphology and analyzed using infrared spectroscopy and transmission electron microscopy.The carbon dot distribution on the paper strip was evaluated by scanning electron microscope and energy-dispersive X-ray analysis.The absorption and fluorescence spectral analyses were investigated.The paper sheets' mechanical qualities were also examined.

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Alshareef, M., Snari, R. M., Alaysuy, O., Aldawsari, A. M., Abumelha, H. M., Katouah, H., & El-Metwaly, N. M. (2022). Optical Detection of Acetone Using “Turn-Off” Fluorescent Rice Straw Based Cellulose Carbon Dots Imprinted onto Paper Dipstick for Diabetes Monitoring. ACS Omega, 7(19), 16766–16777. https://doi.org/10.1021/ACSOMEGA.2C01492

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