Results 11 to 20 of about 12,447 (227)
Advances in Wearable Chemosensors [PDF]
Chemosensors, 2021 In this review, the latest research on wearable chemosensors is presented. In focus are the results from open literature, mainly from the last three years. The progress in wearable chemosensors is presented with attention drawn to the measuring technologies, their ability to provide robust data, the manufacturing techniques, as well their autonomy and ...
Panagiota Koralli, Dionysios E. Mouzakis
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Induced-Fit Recognition by a Calixarene-Pyrene Conjugate for Single- and Dual-Wavelength Fluorescence Sensing in Water. [PDF]
ChemistryA sulfonatocalix[4]arene–pyrene conjugate functions as a fluorescence chemosensor for the optical detection of biorelevant analytes in water. Its photoinduced electron transfer (PET) response is triggered by an induced‐fit recognition mechanism. Noncovalent assembly with an additional dye affords dual‐color ratiometric signaling via competitive PET ...
Martins JN +4 more
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Chemosensors and chemoreception [PDF]
Analytical and Bioanalytical Chemistry, 2014 The objective of this topical collection is to report on the most recent research into and applications of chemical sensing and olfaction. It focuses in particular on chemosensors (gas sensors) and chemoreception (artificial olfaction), and the interactions between them.
Jong-Heun, Lee, Hyung Gi, Byun
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Virtual Issue: Chemosensors [PDF]
ChemistryOpen, 2018 AbstractChemosensors are compounds that incorporate a receptor unit and a reporter unit in a single molecule. A chemosensor transforms the action of binding to a specific analyte into a readable signal. Chemosensors have enabled the study of molecular interactions in a range of different media and interfaces.
Adam C. Sedgwick, Tony D. James
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Sensors, 2020 Liquid crystal-based sensors offer the advantage of high sensitivity at a low cost. However, they often lack selectivity altogether or require costly and unstable biomaterials to impart this selectivity.
Maciej Cieplak +7 more
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Journal of Chemical Research, 2022 A novel fluorescent chemosensor containing a coumarin–thiourea unit and a β- N -glycosyl moiety is designed, synthesized, and characterized by 1 H NMR, 13 C NMR, and elemental analysis. The chemosensor can selectively and efficiently detect Hg 2+ in CH 3
Xiaomin Gu +4 more
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Synthesis of Vanillin-Azine as Colorimetric Chemosensor of Sulfide Anion
Indonesian Journal of Chemistry, 2022 Vanillin-azine (VA), (4,4'-((1E,1'E)-hydrazine-1,2-diylidenebis(methane-lylidene))bis(2-methoxyphenol) has been synthesized from vanillin and tested as anion colorimetric chemosensors for sulfide anion.
Nevi Faizatu Rokhmah +2 more
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A Colorimetric Chemosensor Based on a Nozoe Azulene That Detects Fluoride in Aqueous/Alcoholic Media
Frontiers in Chemistry, 2020 Colorimetry is an advantageous method for detecting fluoride in drinking water in a resource-limited context, e. g., in parts of the developing world where excess fluoride intake leads to harmful health effects.
Lloyd C. Murfin +11 more
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Journal of Saudi Chemical Society, 2022 A novel thiazole-based Schiffbase chemosensor SB1 with N- and O- donor atoms was synthesized and characterized by different techniques (UV–vis, 13C NMR, 1H NMR, and FT-IR analysis).
Sikandar Khan +5 more
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Acknowledgement to Reviewers of Chemosensors in 2014
Chemosensors, 2015 The editors of Chemosensors would like to express their sincere gratitude to the following reviewers for assessing manuscripts in 2014:[...]
Chemosensor Editorial Office
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