Detection of different chemical moieties in aqueous media by luminescent Europium as sensor
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M. Iqbal | Komal Bashir | Faisal Jamil | Sadia Nazir | Umar Sohail Shoukat | Anam Bashir | Kainat Nasrullah | Ateeq-Ur Rehman
[1] Wenbin Sun,et al. Efficient Tb3+-to-Eu3+ energy transfer for colorimetric luminescence sensing. , 2022, Analytica chimica acta.
[2] Jilong Han,et al. 3,3′,5,5′-Tetramethylbenzidine and polyetherimide decorated silver nanoparticles for colorimetric Mn2+ ions detection in aqueous solution , 2022, Chemical Papers.
[3] Xiaoli Chen,et al. Eu3+-postdoped MOFs are used for fluorescence sensing of TNP, TC and pesticides and for anti-counterfeiting ink application , 2022, Dyes and Pigments.
[4] Jingping Wang,et al. Luminescent Dimeric Oxalate-Bridged Eu3+/Tb3+-Implanted Arsenotungstates: Tunable Emission, Energy Transfer, and Detection of Ba2+ Ion in Aqueous Solution. , 2022, Inorganic chemistry.
[5] Zhijian Li,et al. A Eu3+-based high sensitivity ratiometric fluorescence sensor for determination of tetracycline combining bi-functional carbon dots by surface functionalization and heteroatom doping , 2022, Dyes and Pigments.
[6] B. Yan,et al. Unearth the Luminescence Potential of Metal-Organic Frameworks: Adopting a Feasible Strategy to Fabricate One Ratiometric Fluorescence Sensor for Monitoring Both 1-Hydroxypyrene and Cu2. , 2022, Inorganic chemistry.
[7] Jinmin Wang,et al. Eu3+-β-diketone functionalized covalent organic framework hybrid material as a sensitive and rapid response fluorescent sensor for glutaraldehyde. , 2022, Talanta.
[8] Qin Xu,et al. A Dual-emitting Two-dimensional Nickel-based Metal-organic Framework Nanosheets: Eu3+/Ag+ Functionalization Synthesis and Ratiometric Sensing in Aqueous Solution , 2021, Journal of Fluorescence.
[9] B. Yan,et al. A bi-functionalized metal-organic framework based on N-methylation and Eu3+ post-synthetic modification for highly sensitive detection of 4-Aminophenol (4-AP), a biomarker for aniline in urine. , 2021, Talanta.
[10] Xiaozhen Wang,et al. Sensitive Cu2+ detection by reversible on-off fluorescence using Eu3+ complexes in SiO2, in chitosan/polyethylene oxide nanofibers , 2021, Materials & Design.
[11] Zhiliang Liu,et al. Eu3+ doped bismuth metal-organic frameworks with ultrahigh fluorescence quantum yield and act as ratiometric turn-on sensor for histidine detection , 2021 .
[12] I. Kaya,et al. Synthesis and characterization of a highly selective turn-on fluorescent chemosensor for Sn2+ derived from diimine Schiff base , 2021 .
[13] Bing Liu,et al. A highly sensitive and selective turn-off fluorescence sensor for Fe3+ detection based on a terbium metal-organic framework , 2021 .
[14] Jiyong Shi,et al. A dual-emission fluorescence sensor for ultrasensitive sensing mercury in milk based on carbon quantum dots modified with europium (III) complexes , 2021 .
[15] S. Pu,et al. Europium(III) complex fluorescent sensor for dual channel recognition of Sn2+ and Cu2+ ions in water. , 2020, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[16] Jun Luo,et al. A new fluorescent sensor constructed by Eu3+ post-functionalized metal-organic framework for sensing Ag+ with high selectivity and sensitivity in aqueous solution , 2020 .
[17] Liuyi Li,et al. Amino-functionalized YF3:Eu3+ nanoparticles: A selective two-in-one fluorescent probe for Cr(III) and Cr(VI) detection , 2020 .
[18] Junwei Zhao,et al. A Penta‐Eu III Sandwiched Dawson Selenotungstate and Its Unique Luminescence Properties , 2020 .
[19] R. O. Freire,et al. Experimental and theoretical studies of Glyphosate detection in water by an europium luminescent complex and effective adsorption by HKUST-1 and IRMOF-3. , 2020, Journal of agricultural and food chemistry.
[20] E. Prabakaran,et al. Synthesis and characterization of fluorescent Europium (III) complex based on D-dextrose composite for latent fingerprint detection , 2020 .
[21] Z. Lei,et al. A Facile Polymerization Strategy for the Construction of Eu3+-based Fluorescent Materials with the Capability of Distinguishing D2O from H2O. , 2020, Analytical chemistry.
[22] T. Sørensen,et al. Using europium(III) complex of 1,4,7,10-tetraazacyclododecane-1,4,7-triacedic acid Eu.DO3A as a luminescent sensor for bicarbonate , 2020 .
[23] Zhiliang Liu,et al. Intriguing pH-modulated Luminescence Chameleon System based on Postsynthetic Modified Dual-emitting Eu3+@Mn-MOF and Its Application for Histidine Chemosensor. , 2020, Inorganic chemistry.
[24] Hu Meng,et al. The SPE-assisted europium (III) based complex fluorometric assay for the highly selective and sensitive detection of manganese (II) in water. , 2020, Talanta.
[25] Runjing Liu,et al. Colorimetric detection of Cr3+ based on gold nanoparticles functionalized with 4-mercaptobenzoic acid , 2020, Journal of Analytical Science and Technology.
[26] S. Pu,et al. A novel fluorescent sensor for Al3+ and Zn2+ based on a new europium complex with a 1,10-phenanthroline ligand , 2020 .
[27] Pattanawit Swanglap,et al. A method to detect Hg2+ in vegetable via a “Turn–ON” Hg2+–Fluorescent sensor with a nanomolar sensitivity , 2020 .
[28] Jiang He,et al. Ratiometric method based on silicon nanodots and Eu3+ system for highly-sensitive detection of tetracyclines. , 2019, Talanta.
[29] Lin-jun Huang,et al. Strong luminescence and sharp heavy metal ion sensitivity of water-soluble hybrid polysaccharide nanoparticles with Eu3+ and Tb3+ inclusions , 2019, Applied Nanoscience.
[30] Guangming Li,et al. Eu3+/TFA Functionalized MOF as Luminescent Enhancement Platform: A Ratiometric Luminescent Sensor for Hydrogen Sulfide in Aqueous Solution , 2019, Journal of Inorganic and Organometallic Polymers and Materials.
[31] Y. Liao,et al. Europium Ionic Liquid Grafted Covalent Organic Framework with Dual Luminescence Emissions as Sensitive and Selective Acetone Sensor. , 2019, ACS applied materials & interfaces.
[32] Yuanyuan Han,et al. Dual-functional fluorescent sensors based on CaMoO4:Eu3+ for detection of Iron(Ⅲ) and dichromate ions in aqueous , 2019, Optical Materials.
[33] Jinmin Wang,et al. Eu3+-Functionalized Covalent Organic Framework Hybrid Material as a Sensitive Turn-On Fluorescent Switch for Levofloxacin Monitoring in Serum and Urine. , 2019, Inorganic chemistry.
[34] Rui Qiao,et al. Synthesis of methionine methyl ester-modified coumarin as the fluorescent-colorimetric chemosensor for selective detection Cu2+ with application in molecular logic gate. , 2019, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[35] Xiaoya Hu,et al. An electrochemical sensor on the hierarchically porous Cu-BTC MOF platform for glyphosate determination , 2019, Sensors and Actuators B: Chemical.
[36] Jian He,et al. Bonded-luminescent foam based on europium complexes as a reversible copper (II) ions sensor in pure water , 2019, European Polymer Journal.
[37] S. Mandal,et al. Europium-Based Metal-Organic Framework as a Dual Luminescence Sensor for the Selective Detection of the Phosphate Anion and Fe3+ Ion in Aqueous Media. , 2018, Inorganic chemistry.
[38] B. Yan,et al. A facile indicator box based on Eu3+ functionalized MOF hybrid for the determination of 1-naphthol, a biomarker for carbaryl in urine , 2018 .
[39] N. Chanda,et al. Europium-Coordinated Gold Nanoparticles on Paper for the Colorimetric Detection of Arsenic(III, V) in Aqueous Solution , 2017 .
[40] U. H. Yildiz,et al. Smart Phone Assisted Detection and Quantification of Cyanide in Drinking Water by Paper Based Sensing Platform , 2017 .
[41] Shyam Biswas,et al. A multi-responsive carbazole-functionalized Zr(IV)-based metal-organic framework for selective sensing of Fe(III), cyanide and p-nitrophenol , 2017 .
[42] Z. Chai,et al. Hydrolytically Stable Luminescent Cationic Metal Organic Framework for Highly Sensitive and Selective Sensing of Chromate Anions in Natural Water Systems. , 2017, ACS applied materials & interfaces.
[43] Lei Wang,et al. A new aggregation-induced emission active fluorescent probe for sensitive detection of cyanide , 2017 .
[44] N. Pradhan,et al. Gold nanoparticles as efficient sensors in colorimetric detection of toxic metal ions: A review , 2017 .
[45] Shuhong Yu,et al. Tuning Gold Nanoparticle Aggregation through the Inhibition of Acid Phosphatase Bioactivity: A Plasmonic Sensor for Light-Up Visual Detection of Arsenate (AsV ). , 2016, ChemPlusChem.
[46] Yuyang Jiang,et al. An efficient quinoline-based fluorescence sensor for zinc(II) and its application in live-cell imaging , 2016 .
[47] Min Liu,et al. A novel sensor for the detection of alkaline phosphatase activity based on the self-assembly of Eu3+-doped oxide nanoparticles and heptamethine cyanine dye , 2016 .
[48] S. Ng,,et al. A new luminescent lanthanide supramolecular network possessing free Lewis base sites for highly selective and sensitive Cu^2+ sensing , 2016, Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology.
[49] Xudong Yu,et al. Highly selective fluorescent sensing for fluoride based on a covalently bonded europium mesoporous hybrid material , 2016 .
[50] Liyuan Liu,et al. Down-shifting luminescence of water soluble NaYF4:Eu3+@Ag core-shell nanocrystals for fluorescence turn-on detection of glucose , 2016, Science China Materials.
[51] B. Yan,et al. Zeolite-type metal organic frameworks immobilized Eu³⁺ for cation sensing in aqueous environment. , 2015, Journal of colloid and interface science.
[52] Vinod K. Gupta,et al. A highly selective colorimetric and turn-on fluorescent chemosensor based on 1-(2-pyridylazo)-2-naphthol for the detection of aluminium(III) ions , 2015 .
[53] Lun Wang,et al. Ultrasensitive mercury(II) ion detection by europium(III)-doped cadmium sulfide composite nanoparticles. , 2010, Talanta.
[54] Huimin Liu,et al. Investigation of the influence of silver and tin on the luminescence of trivalent europium ions in glass , 2010 .
[55] Paresh Chandra Ray,et al. Use of gold nanoparticles in a simple colorimetric and ultrasensitive dynamic light scattering assay: selective detection of arsenic in groundwater. , 2009, Angewandte Chemie.