Related references
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Article
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Article
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Summary: In this study, steric hindrance was introduced to prevent π-π stacking, allowing the formation of three-dimensional covalent organic frameworks (COFs) through entanglement. A highly crystalline COF (3D-An-COF) was successfully synthesized using precursor molecules with bulky anthracene units. The structural characterization revealed the presence of a square entanglement structure, and the COF exhibited fluorescence and could be used as a sensor for detecting trace antibiotics in water. This study provides a new strategy for the diversification of 3D COFs and opens up possibilities for interesting applications in the future.
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(2023)
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Summary: This translated article introduces the application of surface-enhanced Raman scattering (SERS) technology in environmental analysis, focusing on the design and sensing strategies of DNA-functionalized plasmonic nanoassemblies. It also discusses the current challenges and potential trends in environmental pollutant monitoring.
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Summary: This study proposes a machine learning-driven 3D plasmonic cavity-in-cavity SERS platform for sensitive and quantitative detection of antibiotics. The application of this platform enables quantitative analysis of antibiotics at different concentrations.
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Summary: This study developed a novel long-range SERS substrate to improve the detection of viral proteins by enhancing the electromagnetic field. The technique achieved low concentration detection of SARS-CoV-2 spike protein without the need for reagents, and could also be used for testing in saliva.
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Summary: A multifunctional RhB-PLGM@CN nanoprobe was developed for simultaneous photodynamic therapy and monitoring of invasion-related MMP-9 by surface-enhanced Raman spectroscopy. The probe was found to inhibit cell invasion in a glioblastoma multiforme cell line model by downregulating MMP-9.
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