Highly sensitive hydrazine detection through a novel Raman scattering quenching mechanism enabled by a crystalline and noble metal-free polyoxometalate substrate
Author:
Funder
National Natural Science Foundation of China
Shandong Province Natural Science Foundation
Publisher
Elsevier BV
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1. A flavone-based ESIPT fluorescent sensor for detection of N2H4 in aqueous solution and gas state and its imaging in living cells
2. Fast, visual, and quantitative monitoring of N2H4 by two ratiometric fluorescent probes in environmental media and biological systems
3. A water-soluble fluorescence sensor with high specificity for detecting hydrazine in river water detection and A549 cell imaging
4. Thermally induced variation in redox chemical bonding structures of single-walled carbon nanotubes exposed to hydrazine vapor
5. Colorimetric recognition of hydrazine in aqueous solution by a bromophenol blue-tethered ion-pair-like ratiometric probe
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