2023
DOI: 10.1021/acs.analchem.2c05140
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Single-Probe-Based Colorimetric and Photothermal Dual-Mode Identification of Multiple Bacteria

Abstract: Effective identification of multiple pathogenic bacteria in unknown samples is important for disease prevention and control but remains a challenge yet. A single-mode arraybased sensing approach is simple and sensitive, but it usually relies on the use of multiple crossreactive receptors to construct sensor arrays, which is cumbersome and insufficiently accurate. Here, we developed a sensor array with colorimetric and photothermal dual mode of differentiating multiple pathogenic bacteria. The sensor array was … Show more

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Cited by 31 publications
(7 citation statements)
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“…Because different BA−GMNPs@bacterial complexes differed in resisting assembly and producing different colorimetric and photothermal response signals, the unique molecular fingerprint of each bacterium can be obtained through the linear discriminant analysis of the response pattern. 84…”
Section: Machine Learning-assisted Sensor Arraysmentioning
confidence: 99%
See 1 more Smart Citation
“…Because different BA−GMNPs@bacterial complexes differed in resisting assembly and producing different colorimetric and photothermal response signals, the unique molecular fingerprint of each bacterium can be obtained through the linear discriminant analysis of the response pattern. 84…”
Section: Machine Learning-assisted Sensor Arraysmentioning
confidence: 99%
“…A colorimetric and photothermal dual‐mode sensor array based on boronic acid‐functionalized Au−Fe 3 O 4 nanoparticles (BA–GMNPs) is used to differentiate multiple pathogenic bacteria. Because different BA−GMNPs@bacterial complexes differed in resisting assembly and producing different colorimetric and photothermal response signals, the unique molecular fingerprint of each bacterium can be obtained through the linear discriminant analysis of the response pattern 84 …”
Section: Nanomaterials and Microbial Diagnosismentioning
confidence: 99%
“…Multichannel sensing device, which integrates multiple sensing units in a single sensor, has recently attracted increasing attention because it can achieve multidimensional information acquisition in a single matrix. ,, Nowadays, multichannel sensors incorporating fluorescence and other transducer channels (e.g., absorbance, phosphorescence, electrochemiluminescence, conductivity, etc.) in a single molecule (i.e., lab-on-a-molecule) or nanoparticle (i.e., lab-on-a-nanoparticle) have already been applied in several array discrimination tasks. , Nevertheless, most reported multichannel sensors still need repeated measurements and even various instruments and operational conditions to accomplish the detection of analytes as their signal units commonly have different transduction sources. ,,, Multitarget array sensing in a single matrix utilizing single fluorescence is still a challenge.…”
Section: Introductionmentioning
confidence: 99%
“…This will result in selective and sensitive modulation performance for the photothermal effect of the sensing system. By mediating the conversion of light-to-heat energy and associated temperature changes in the system, this process can achieve high selectivity and ultrasensitive detection of trace samples. Notably, this convenient and practical strategy has not been reported in the field of enantiomeric recognition. Thus, utilizing noble metal NPs and their photothermal properties holds promise for improving enantioselectivity and sensitivity in chiral sensing applications.…”
Section: Introductionmentioning
confidence: 99%