Colorimetric recognition of water-polluting inorganic arsenic anions using near-infrared chemosensors in organic and semi-aqueous medium
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[1] Shivani Sharma,et al. 2-hydroxy-naphthalene hydrazone based dual-functional chemosensor for ultrasensitive colorimetric detection of Cu2+ and highly selective fluorescence sensing and bioimaging of Al3+ , 2022, Journal of Photochemistry and Photobiology A: Chemistry.
[2] M. Khalid,et al. A coumarin based Schiff Base: An effective colorimetric sensor for selective detection of F- ion in real samples and DFT studies. , 2022, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[3] M. Tripathy,et al. Simultaneous visual and spectroscopic multi-analyte detection of Al3+ and AsO2- using simple salicylidene based D-π-A chromophore , 2022, Journal of Photochemistry and Photobiology A: Chemistry.
[4] H. Keypour,et al. An experimental and theoretical study of a new sensitive and selective Al 3+ Schiff base fluorescent chemosensor bearing a homopiperazine moiety , 2022, Journal of Molecular Structure.
[5] F. Ko,et al. A Hydrogel-Based Chemosensor Applied in Conjunction with a Griess Assay for Real-Time Colorimetric Detection of Nitrite in the Environment , 2022, SSRN Electronic Journal.
[6] Ashutosh Kumar Singh,et al. Economically Viable Multi-Responsive Probes for Fluorimetric Detection of Trace Levels of Ga3+, Al3+ and PPI in Near Aqueous Medium , 2022, SSRN Electronic Journal.
[7] A. Karatay,et al. Colorimetric Probing and Fluorescent Chemosensor Features of Functionalized Sulphonamide-Azomethine Derivatives , 2022, Journal of Photochemistry and Photobiology A: Chemistry.
[8] S. Bhat,et al. Selective chromogenic and fluorogenic signalling of Hg2+ ions using a benzothiazole-quinolinyl acrylate conjugate and its applications in the environmental water samples and living cells , 2022, Journal of Photochemistry and Photobiology A: Chemistry.
[9] Wenrui Dong,et al. A highly selective and sensitive salamo-salen-salamo hybrid fluorometic chemosensor for identification of Zn2+ and the continuous recognition of phosphate anions. , 2022, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[10] Jinyi Wang,et al. Di-(2-picolyl)amine functionalized tetraphenylethylene as multifunctional chemosensor. , 2022, Analytica chimica acta.
[11] Q. Tian,et al. Synchronous colorimetric determination of CN −, F−, and H2PO4− based on structural manipulation of hydrazone sensors , 2021, Inorganica Chimica Acta.
[12] Mujthaba Aatif A,et al. Dual anion colorimetric and fluorometric sensing of arsenite and cyanide ions involving MLCT and CHEF pathways , 2021, Journal of Molecular Structure.
[13] Z. Seferoğlu,et al. Novel Fluorescent Coumarin-Thiazole based Sensors for Selective Determination of Cyanide in Aqueous Media , 2021, Journal of Molecular Structure.
[14] Pengcheng Yin,et al. A new AIEE-active carbazole based colorimetric/fluorimetric chemosensor for ultra-rapid and nano-level determination of Hg2+ and Al3+ in food/environmental samples and living cells , 2021 .
[15] Yohan Han,et al. Novel rhodamine based chemosensor for detection of Hg2+: Nanomolar detection, real water sample analysis, and intracellular cell imaging , 2021 .
[16] A. V. Adhikari,et al. Simple 3,6‐disubstituted Carbazoles as Potential Hole Transport Materials: Photophysical, Electrochemical and Theoretical Studies , 2020, Photochemistry and photobiology.
[17] Ashutosh Kumar Singh,et al. Design and synthesis of malonohydrazide based colorimetric receptors for discrimination of maleate over fumarate and detection of F-, AcO- and AsO2- ions. , 2019, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[18] Jae Min Jung,et al. Selective chemosensor capable of sensing both CN− and Zn2+: Its application to zebrafish , 2019, Sensors and Actuators B: Chemical.
[19] Jianding Qiu,et al. Optical sensors for inorganic arsenic detection , 2019, TrAC Trends in Analytical Chemistry.
[20] N. C. Murmu,et al. Sensitive and Selective in Vitro Recognition of Biologically Toxic As(III) by Rhodamine Based Chemoreceptor , 2019, ACS Sustainable Chemistry & Engineering.
[21] Sabyasachi Ta,et al. Sequential Fluorescence Recognition of Molybdenum(VI), Arsenite, and Phosphate Ions in a Ratiometric Manner: A Facile Approach for Discrimination of AsO2– and H2PO4– , 2019, ACS omega.
[22] Lingwen Zeng,et al. Highly Sensitive Aptasensor for Trace Arsenic(III) Detection Using DNAzyme as the Biocatalytic Amplifier. , 2019, Analytical chemistry.
[23] R. Purkait,et al. A hydrazine-based thiocarbamide probe for colorimetric and turn-on fluorometric detection of PO43− and AsO33− in semi-aqueous medium , 2018 .
[24] María Alicia Zon,et al. Electrochemical Biosensors for the Determination of Toxic Substances Related to Food Safety Developed in South America: Mycotoxins and Herbicides , 2017 .
[25] D. Dey,et al. Development of arsenic(v) sensor based on Fluorescence Resonance Energy Transfer , 2017 .
[26] A. Mohammadi,et al. A new dual colorimetric chemosensor based on quinazolinone for CNˉ, AcOˉ and Cu2+ ions , 2017 .
[27] Prem Singh,et al. Synthesis of new benzothiazole Schiff base as selective and sensitive colorimetric sensor for arsenic on-site detection at ppb level , 2017 .
[28] Ashutosh Kumar Singh,et al. Dual anion colorimetric and fluorometric sensing of arsenite and cyanide ions , 2016 .
[29] H. Hirani,et al. Smartphone-based digitized recognition of As3+ along with its effectual mitigation in water using a benzothiazole-functionalized molecular scaffold , 2022, Materials Advances.
[30] R. Shunmugam,et al. Colorimetric and fluorometric probes for the optical detection of environmental Hg(ii) and As(iii) ions , 2021, Materials Advances.
[31] Pawan,et al. Schiff base-functionalized silatrane-based receptor as a potential chemo-sensor for the detection of Al3+ ions , 2021 .