Carbon dot and silver nanoparticle–based fluorescent probe for the determination of sulfite and bisulfite via inner-filter effect and competitive redox reactions
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[1] Keli Zhong,et al. Novel Colorimetric and NIR Fluorescent Probe for Bisulfite/Sulfite Detection in Food and Water Samples and Living Cells Based on the PET Mechanism. , 2022, Journal of agricultural and food chemistry.
[2] Y. Yao,et al. Mitochondria-Targeted Fluorescent Turn-On Probe for Rapid Detection of Bisulfite/Sulfite in Water and Food Samples. , 2022, Journal of agricultural and food chemistry.
[3] N. Hildebrandt,et al. Fluorescent Aptasensors: Design Strategies and Applications in Analyzing Chemical Contamination of Food. , 2021, Analytical chemistry.
[4] Xiangzhi Song,et al. A Ratiometric, Fast-Responsive, and Single-Wavelength Excited Fluorescent Probe for the Discrimination of Cys and Hcy. , 2021, Analytical chemistry.
[5] Xiaomei Yan,et al. Mitochondria-Targeted Red-Emission Fluorescent Probe for Ultrafast Detection of H2S in Food and Its Bioimaging Application. , 2021, Journal of agricultural and food chemistry.
[6] Zhiqiang Zhang,et al. Responsive small-molecule luminescence probes for sulfite/bisulfite detection in food samples , 2021 .
[7] O. Padilla-Zakour,et al. High pressure processing of heat and pressure resistant fungi as affected by pH, water activity, sulfites, and dimethyl dicarbonate in a diluted apple juice concentrate , 2021 .
[8] C. Jiménez-Jorquera,et al. Microanalytical flow system for the simultaneous determination of acetic acid and free sulfur dioxide in wines. , 2020, Food Chemistry.
[9] Yongzhen Wang,et al. Carbon quantum Dot@Silver nanocomposite–based fluorescent imaging of intracellular superoxide anion , 2020, Microchimica Acta.
[10] F. Durbiano,et al. Direct quantification of sulfur dioxide in wine by Surface Enhanced Raman Spectroscopy. , 2020, Food chemistry.
[11] Z. Dai,et al. A Ratiometric Fluorescent Quantum Dot-Based Biosensor for Chlorothalonil Detection via an Inner-Filter Effect. , 2020, Analytical chemistry.
[12] R. Ho,et al. A novel mitochondria-targetted near-infrared fluorescent probe for selective and colorimetric detection of sulfite and its application in vitro and vivo. , 2020, Food chemistry.
[13] E. Llorent-Martínez,et al. Graphene quantum dots-silver nanoparticles as a novel sensitive and selective luminescence probe for the detection of glyphosate in food samples. , 2020, Talanta.
[14] Wei Chen,et al. Highly sensitive and selective sulfite sensors based on solution-gated graphene transistors with multi-walled carbon nanotube functionalized gate electrodes. , 2019, Food chemistry.
[15] K. Carlos,et al. Comparison and optimization of three commercial methods with an LC-MS/MS method for the determination of sulfites in food and beverages. , 2019, Food chemistry.
[16] Jong Seung Kim,et al. Reaction-based fluorescent probes for SO2 derivatives and their biological applications , 2019, Coordination Chemistry Reviews.
[17] Shi Gang Liu,et al. Oxidation etching induced dual-signal response of carbon dots/silver nanoparticles system for ratiometric optical sensing of H2O2 and H2O2-related bioanalysis. , 2019, Analytica chimica acta.
[18] Zhefeng Fan,et al. Determination of Thiourea by On–Off Fluorescence Using Nitrogen-Doped Graphene Quantum Dots , 2019, Analytical Letters.
[19] Xingbin Yang,et al. Preparation of a Near-Infrared Fluorescent Probe Based on IR-780 for Highly Selective and Sensitive Detection of Bisulfite-Sulfite in Food, Living Cells, and Mice. , 2019, Journal of agricultural and food chemistry.
[20] Shuang Ma,et al. Green synthesis of carbon dots functionalized silver nanoparticles for the colorimetric detection of phoxim. , 2018, Talanta.
[21] Tang Gao,et al. A ratiometric upconversion nanoprobe for fluorometric turn-on detection of sulfite and bisulfite , 2018, Microchimica Acta.
[22] Jianbin Chao,et al. A new fluorescent material and its application in sulfite and bisulfite bioimaging , 2017 .
[23] Fengli Qu,et al. Uricase based fluorometric determination of uric acid based on the use of graphene quantum dot@silver core-shell nanocomposites , 2017, Microchimica Acta.
[24] Qian Sun,et al. A ratiometric fluorescence probe for selective detection of sulfite and its application in realistic samples. , 2017, Talanta.
[25] Xiang-Jian Cao,et al. An effective ICT-based and ratiometric fluorescent probe for sensing sulfite , 2016 .
[26] Guoqiang Feng,et al. A colorimetric and near-infrared fluorescent turn-on probe for rapid detection of sulfite , 2016 .
[27] Minghui Yang,et al. Graphene oxide quantum dots@silver core-shell nanocrystals as turn-on fluorescent nanoprobe for ultrasensitive detection of prostate specific antigen. , 2015, Biosensors & bioelectronics.
[28] Ligong Zhang,et al. Sensitive fluorescent detection of melamine in raw milk based on the inner filter effect of Au nanoparticles on the fluorescence of CdTe quantum dots. , 2012, Food chemistry.
[29] Huan-Tsung Chang,et al. Synthesis of high-quality carbon nanodots from hydrophilic compounds: role of functional groups. , 2012, Chemical communications.
[30] Minglei Zhao,et al. A rhodamine-based fluorescent probe selective for bisulfite anion in aqueous ethanol media , 2011 .
[31] V. Madan,et al. Clinical effects of sulphite additives , 2009, Clinical and experimental allergy : journal of the British Society for Allergy and Clinical Immunology.
[32] B. Zhang,et al. DNA damaging effects of sulfur dioxide derivatives in cells from various organs of mice. , 2004, Mutagenesis.
[33] A. Zemann,et al. Determination of inorganic anions in Kraft pulping liquors by capillary electrophoresis , 1996 .
[34] David R. Walt,et al. Calculation for fluorescence modulation by absorbing species and its application to measurements using optical fibers , 1987 .