Diethylenetriaminepentaacetic Acid-Functionalized Gold Nanoparticles for the Detection of Toxic Chromium Assisted by a Machine-Learning Approach

We present a machine-learning approach in developing a smartphone-based rapid and point-of-use (PoU) trace-level detection of chromium (III and VI) ions using a nanosensor comprising dithiolated diethylenetriaminepentaacetic acid-functionalized gold nanoparticles (DTDTPA-GNP). The bright red color o...

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Bibliographic Details
Published inACS applied nano materials Vol. 4; no. 10; pp. 10713 - 10724
Main Authors Priyadarshni, Nivedita, Dutta, Samik, Chanda, Nripen
Format Journal Article
LanguageEnglish
Published American Chemical Society 22.10.2021
Subjects
Gold−DTDTPA
detection
VI
smartphone
support vector machine learning
industrial waste
nanosensor
chromium (III
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Summary:We present a machine-learning approach in developing a smartphone-based rapid and point-of-use (PoU) trace-level detection of chromium (III and VI) ions using a nanosensor comprising dithiolated diethylenetriaminepentaacetic acid-functionalized gold nanoparticles (DTDTPA-GNP). The bright red color of DTDTPA-GNP turned blue with CrIII/VI ions in an aqueous medium. The nanosensor exhibited good linearity for CrIII/VI detection in a concentration range of 0.001–10 ppm with a detection limit of 0.001 ppm. A smartphone was used to acquire images of the distinct color change due to the DTDTPA-GNP–CrIII/VI interactions. Two features, that is, saturation and chroma component of red color difference were extracted from the color information of the acquired images. The extracted features from training samples were utilized to build a support vector machine-based regression (SVR) model to predict the accurate concentration of chromium (III and VI) in water and an aqueous extract of ferrochrome industrial waste (collected from the alloy industry as waste slag). The accurate prediction of 0.027 ppm CrIII/VI concentration in the industrial waste sample with a 100% recovery rate confirms the colorimetric-based SVR model as an efficient sensing platform for CrIII/VI ion detection. The mean squared error for CrIII/VI prediction was 0.00039 with 404 support vectors and a bias value of 0.1473. This highly selective and sensitive smartphone-based approach thus established the use of DTDTPA-GNP for PoU detection of CrIII/VI, specifically in day-to-day monitoring of water quality.
ISSN:2574-0970
2574-0970
DOI:10.1021/acsanm.1c02171