High Product Yield Synthesis of Nitrogen Doped Carbon Dots through Exothermic Reaction for Temperature Sensing and Tartrazine Detection

Yan, Xinyu and Xiang, Guoqiang and Wang, Xinyu and Li, Junli and He, Mengyao and Liu, Xing (2023) High Product Yield Synthesis of Nitrogen Doped Carbon Dots through Exothermic Reaction for Temperature Sensing and Tartrazine Detection. Asian Journal of Chemical Sciences, 13 (4). pp. 26-38. ISSN 2456-7795

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Abstract

Rapid, green and high yield synthesis of nitrogen doped carbon dots(N-CDs) through exothermic decomposition reaction of H2O2 using grasshopper powder as precursor and polyethyleneimine (PEI) as a surface passivation reagent. Water-soluble fluorescent N-CDs can be obtained by reacting 5 minutes and purified N-CDs were obtained after an activated carbon adsorption separation procedure with a product yield of 53.3%. TEM, FT-IR, XPS, fluorescence and UV-vis spectra were used to investigate the morphology, elemental information and optical properties of N-CDs. The results indicated that the fluorescence emission of N-CDs is typical excitation wavelength dependent with a strongest emission peak at 417 nm under 330 nm excitation wavelength. There is a good linear response between the fluorescence intensity of N-CDs and temperature, which makes N-CDs a potential nanothermometer to monitor temperature. The great spectral overlap between the blue emission peak (417 nm) of N-CDs and the absorption peak (430 nm) of tartrazine (TAR) leads to an effectively fluorescence quenching phenomenon by TAR through inner filter effect (IFE) and the fluorescence quenching degree (lg(I0/I)) was linearly response to the TAR concentration in the range of 1-100 µM. The detection limit of developed method is 54.3 nM for TAR, and the relative standard deviation (RSD) is 1.14% (n=7, c=10 μM). The N-CDs came from an exothermic reaction is a highly selective and sensitive fluorescent probe for TAR, and it was successfully applied to the determination of TAR in food samples with satisfactory results.

Item Type: Article
Subjects: European Scholar > Chemical Science
Depositing User: Managing Editor
Date Deposited: 19 Sep 2023 07:33
Last Modified: 19 Sep 2023 07:33
URI: http://article.publish4promo.com/id/eprint/2226

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