Recent progress on graphene quantum dots‐based fluorescence sensors for food safety and quality assessment applications

Sharma, Arumugam Selva; Ali, Shujat; Devaraj, Sabarinathan; Marimuthu, Murugavelu; Li, Huanhuan; Chen, Quansheng

doi:10.1111/1541-4337.12834

Cited by 35 publications

(21 citation statements)

References 166 publications

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“…However, the organic fluorophores with high photobleaching efficiency, short detection time, strong hydrophobicity, and low sensitivity to pH limited their wide application (Aranda et al, 2018;Hu et al, 2016). With the development of nanotechnology, various nanomaterials including upconversion materials, metal nanoclusters, quantum dots (QDs) and carbon dots (CDs) with good biocompatibility, bright FL, and unique photostability have been applied in the construction of FL immunosensors (Ansari et al, 2021;Deng et al, 2015;Sharma et al, 2021;Zhuang et al, 2021). Tang et al (2020) constructed an FL immunosensor based on a nanobody (Nb)-mediated Förster resonance energy transfer (FRET) with the aid of QDs.…”

Section: Fl Immunosensormentioning

confidence: 99%

Advances in immunoassay‐based strategies for mycotoxin detection in food: From single‐mode immunosensors to dual‐mode immunosensors

Chen

Qileng

Liang

et al. 2023

Comp Rev Food Sci Food Safe

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Mycotoxin contamination in foods and other goods has become a broad issue owing to serious toxicity, tremendous threat to public safety, and terrible loss of resources. Herein, it is necessary to develop simple, sensitive, inexpensive, and rapid platforms for the detection of mycotoxins. Currently, the limitation of instrumental and chemical methods cannot be massively applied in practice. Immunoassays are considered one of the best candidates for toxin detection due to their simplicity, rapidness, and cost‐effectiveness. Especially, the field of dual‐mode immunosensors and corresponding assays is rapidly developing as an advanced and intersected technology. So, this review summarized the types and detection principles of single‐mode immunosensors including optical and electrical immunosensors in recent years, then focused on developing dual‐mode immunosensors including integrated immunosensors and combined immunosensors to detect mycotoxins, as well as the combination of dual‐mode immunosensors with a portable device for point‐of‐care test. The remaining challenges were discussed with the aim of stimulating future development of dual‐mode immunosensors to accelerate the transformation of scientific laboratory technologies into easy‐to‐operate and rapid detection platforms.

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Section: Fl Immunosensormentioning

confidence: 99%

Advances in immunoassay‐based strategies for mycotoxin detection in food: From single‐mode immunosensors to dual‐mode immunosensors

Chen

Qileng

Liang

et al. 2023

Comp Rev Food Sci Food Safe

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“…Some fluorescence biosensors rely on only one fluorescent probe with a specific emission wavelength, which makes the biosensors vulnerable to different factors such as the concentration of the probe and the external environment 86–88 . Therefore, the search for low‐cost, biocompatible fluorescent probes or the development of new combinations of fluorescent probes is the focus of future research.…”

Section: Colorimetric and Fluorescence Biosensingmentioning

confidence: 99%

Optical biosensing systems for a biological living body

Yan

Guo

Wang

et al. 2023

VIEW

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With the development of technology, biosensors are increasingly used in the biomedical field. Due to the high sensitivity of optical signals, good stability, high signal‐to‐noise ratio, and different spectral characteristics of different analytes, optical biosensors can achieve direct and real‐time detection of analytes with high specificity compared with traditional analytical techniques. In view of the rapid development of optical biosensors for in vivo applications and their promising future, we have attempted to summarize the working principles and recent advances in application in humans, with the aim of helping readers to gain an in‐depth and detailed understanding of optical biosensors developed in recent years for applications in the biological living body. In this review, we focus on some of the current widely used and promising optical biosensors, including colorimetric biosensors, fluorescence biosensors, and surface‐enhanced‐Raman‐scattering‐based biosensors. The working principles for each type of optical biosensor are concisely described and the application of the biosensor in the living body is summarized by category. We conclude by looking at the prospects of in vivo applications of optical biosensors.

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“…Also, these sensors are relatively inexpensive, display high sensitivity, and can be used as a point of care device, thus making them great sensing devices for food analysis (Table 1). [76][77][78]…”

Section: Photoelectrochemical Sensorsmentioning

confidence: 99%