Visual detection of nitrite in sausage based on a ratiometric fluorescent system

Li, Wenting; Shi, Yongqiang; Hu, Xuetao; Li, Zhihua; Huang, Xiaowei; Holmes, Melvin; Gong, Yun; Shi, Jiyong; Zhang, Xiaobo

doi:10.1016/j.foodcont.2019.06.030

Cited by 46 publications

(12 citation statements)

References 42 publications

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“…Taking TMD QDs as an example, the quantum yield of most reported TMD QDs was less than 5%. Only in one study, the MoS 2 QDs, which were synthetized through normal hydrothermal method, exhibited a high quantum yield of 13.4% [55]. Thus, the PL properties of 2D-QDs should be further explored, and more work on strategies for precise regulation of the PL behavior of 2D-QDs should be done.…”

Section: Resultsmentioning

confidence: 99%

“…In cases that the target affects the FRET process, the target could either enhance the efficiency of energy transfer [48,49] or inhibit the FRET process [49][50][51][52][53][54][55]. Yu et al [48] found that when the distance between the donor (MoS 2 QDs) and the acceptor (FAM) was excessively short because of the adsorption of FAM-labeled molecular beacons (MBs) on MoS 2 QDs, the FRET efficiency was relatively low.…”

Section: D-qds As the Donor In Fret Sensorsmentioning

confidence: 99%

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Two-dimensional nanomaterials for Förster resonance energy transfer–based sensing applications

Zhou

Chen

et al. 2020

Nanophotonics

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Abstract Förster resonance energy transfer (FRET)–based sensing has been steadily gaining popularity in the areas of biochemical analysis, environmental monitoring, and disease diagnosis in the past 20 years. Two-dimensional (2D) nanomaterials are extensively used as donors and acceptors in the FRET sensing because of their attractive optical and chemical properties. In this review, we first present the FRET theory and calculations to give readers a better understanding of the FRET phenomenon. Then, we discuss the recent research advances in using 2D nanomaterials as donors and acceptor in FRET sensing. Finally, we summarize the existing challenges and future directions of 2D nanomaterials in the FRET sensing applications.

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Section: Resultsmentioning

confidence: 99%

Section: D-qds As the Donor In Fret Sensorsmentioning

confidence: 99%

Two-dimensional nanomaterials for Förster resonance energy transfer–based sensing applications

Zhou

Chen

et al. 2020

Nanophotonics

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“…However, these above methods are usually featured with sophisticated equipment and cumbersome operation. [3][4][5][6][7] Among them, fluorescence detection includes the superiorities of low cost, easy operation, real-time monitoring and non-invasive analysis. [8][9][10] Metal-organic frameworks (MOFs) were an emerging kind of porous crystal materials, composed of metal ions and organic ligands.…”

Section: Introductionmentioning

confidence: 99%

“…Up to now, several traditional methods for NO 2 − detection have been reported such as colorimetry, chromatography and electrochemical sensing. However, these above methods are usually featured with sophisticated equipment and cumbersome operation [3–7] . Among them, fluorescence detection includes the superiorities of low cost, easy operation, real‐time monitoring and non‐invasive analysis [8–10] …”

Section: Introductionmentioning

confidence: 99%

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A Fluorescent Probe of Nitrite Based on Eu³⁺ Functionalized Metal‐Organic Frameworks

Zhao

Zhang

et al. 2021

Zeitschrift anorg allge chemie

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NO 2À sensing is closely associated with human health, and we adopted lanthanide Eu 3 + post-modified MOF as NO 2 À fluorescent probes. Typical stable MOF with uncoordinated carboxylic groups in the framework were chosen to encapsulate Eu 3 + . NO 2 À could generate an obvious quenching response to the fluorescence intensity. This Eu 3 + functionalized MOF exhibited excellent fluorescence performances and obvious quenching response to NO 2 À based on the energy transfer between Eu 3 + and NO 2 À . This MOF based NO 2 À fluorescent probe showed a highly splendid detection selectivity and sensitivity with a very low detection limit of 0.69 μM, which was significantly below the maximal level limits of NO 2 À in drinking water set by the WHO.

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An Ultra‐Sensitive Electrochemical Sensor for Nitrite Based on Green Synthesized Gold Nanoparticles Using Colocasia Esculenta Extract

Saha,

Aziz,

Islam

et al. 2024

ChemNanoMat

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Seeking to establish a novel, eco‐friendly and ultra‐ sensitive electrochemical nitrite sensor, we have fabricated fluorine doped tin oxide (FTO) electrode with green synthesized gold nanoparticles (AuNPs) from gold salt and taro plant (Colocasia esculenta) extract (Taro_AuNPs/FTO). Different morphological and elemental analysis were conducted to undermine morphological condition and shapes of AuNPs. Further, electrochemical studies were performed for enabling observation on the modification as well as interaction between nitrite ion and AuNPs on the modified FTO. Furthermore, the performance of Taro_AuNPs/FTO sensor was evaluated using DPV technique and the limit of detection (LOD) was 0.923 nmol L‐1 (S/N=3) having sensitivity of 0.00503 μA mM−1 cm−2 within 5‐500 µmol L‐1. Additionally, an insightful mechanistic overview was highlighted about interacting nitrite on the modified electrode surface. Finally, interference test, stability, reproducibility and real sample analysis were conducted to establish the effectiveness of Taro_AuNPs/FTO electrochemical senor for environmental application.

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Visual detection of nitrite in sausage based on a ratiometric fluorescent system

Cited by 46 publications

References 42 publications

Two-dimensional nanomaterials for Förster resonance energy transfer–based sensing applications

Two-dimensional nanomaterials for Förster resonance energy transfer–based sensing applications

A Fluorescent Probe of Nitrite Based on Eu³⁺ Functionalized Metal‐Organic Frameworks

An Ultra‐Sensitive Electrochemical Sensor for Nitrite Based on Green Synthesized Gold Nanoparticles Using Colocasia Esculenta Extract

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Visual detection of nitrite in sausage based on a ratiometric fluorescent system

Cited by 46 publications

References 42 publications

Two-dimensional nanomaterials for Förster resonance energy transfer–based sensing applications

Two-dimensional nanomaterials for Förster resonance energy transfer–based sensing applications

A Fluorescent Probe of Nitrite Based on Eu3+ Functionalized Metal‐Organic Frameworks

An Ultra‐Sensitive Electrochemical Sensor for Nitrite Based on Green Synthesized Gold Nanoparticles Using Colocasia Esculenta Extract

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A Fluorescent Probe of Nitrite Based on Eu³⁺ Functionalized Metal‐Organic Frameworks