Machine Learning System To Monitor Hg²⁺ and Sulfide Using a Polychromatic Fluorescence-Colorimetric Paper Sensor

Abstract: An optical monitoring device combining a smartphone with a polychromatic ratiometric fluorescence-colorimetric paper sensor was developed to detect Hg2+ and S2– in water and seafood. This monitoring included the detection of food deterioration and was made possible by processing the sensing data with a machine learning algorithm. The polychromatic fluorescence sensor was composed of blue fluorescent carbon quantum dots (CDs) (BU-CDs) and green and red fluorescent CdZnTe quantum dots (QDs) (named GN-QDs and RD-… Show more

“…Machine learning was used in recent works for generating algorithms for processing highly precise and accurate data for the detection of analytes. In a very recent work by Lu et al , 144 a polychromatic fluorescent-colorimetric paper sensor was designed. The uniqueness of the work is that it is assisted by a smartphone-based sensor, with simultaneous detection of Hg 2+ and sulphide ions.…”

Advances in the ratiometric combination of quantum dots for their use in sensing applications

“…Machine learning was used in recent works for generating algorithms for processing highly precise and accurate data for the detection of analytes. In a very recent work by Lu et al , 144 a polychromatic fluorescent-colorimetric paper sensor was designed. The uniqueness of the work is that it is assisted by a smartphone-based sensor, with simultaneous detection of Hg 2+ and sulphide ions.…”

Advances in the ratiometric combination of quantum dots for their use in sensing applications

“…While traditional Hg 2+ analytical methods, such as atomic absorption/emission spectrometry and inductively coupled plasma mass spectrometry, can achieve highly sensitive detection of low-dose Hg 2+ , they require expensive instrumentation, complex sample preparation, and long analysis time, which limit practical applications. 6,7 In recent years, emerging Hg 2+ detection methods have included colorimetric analysis, 8 electrochemical analysis, 9,10 enzyme analysis, 11 and fluorescence analysis 12,13 among others. Fluorescence sensors, which offer simple operation, rapid response, low analysis cost and high sensitivity, have been increasingly used to detect Hg 2+ .…”

A graphitic C₃N₄ nanocomposite-based fluorescence platform for label-free analysis of trace mercury ions

“…Alternatively, atomic scale imaging and spectroscopy by scanning tunneling microscopy (STM) and transmission electron microscopy (TEM) have been key to deciphering chemical disorder and electronic heterogeneity in quantum materials. − Regardless, a visual analysis of STM and TEM images can be challenging for multicomponent alloys, particularly beyond the diluted limit due to chemical disorders and electronic inhomogeneities. One way to address this challenge is to use computational methods/statistical analysis (e.g., fast Fourier transform) to analyze the data obtained from imaging experiments to identify patterns and correlations that may not be immediately apparent through visual inspection alone. − A recent approach is to apply machine learning (ML) algorithms to analyze STM/TEM images, where they can be trained to recognize patterns and correlations in the data . Such an approach has been applied to identify hidden electronic orders in STM imaging of quantum matter and to determine surface chemical bonding and adatom interactions. − …”

Deciphering Alloy Composition in Superconducting Single-Layer FeSe_1–xS_x on SrTiO₃(001) Substrates by Machine Learning of STM/S Data