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Journal Abstract Search

300 related items for PubMed ID: 31687670

  • 1. Quantitative and specific detection of cancer-related microRNAs in living cells using surface-enhanced Raman scattering imaging based on hairpin DNA-functionalized gold nanocages.
    Wang Z, Xue J, Bi C, Xin H, Wang Y, Cao X.
    Analyst; 2019 Dec 02; 144(24):7250-7262. PubMed ID: 31687670
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  • 2. Gold nanocage-based surface-enhanced Raman scattering probes for long-term monitoring of intracellular microRNA during bone marrow stem cell differentiation.
    Cao X, Wang Z, Bi L, Bi C, Du Q.
    Nanoscale; 2020 Jan 23; 12(3):1513-1527. PubMed ID: 31854413
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  • 4. A Dual-Signal Twinkling Probe for Fluorescence-SERS Dual Spectrum Imaging and Detection of miRNA in Single Living Cell via Absolute Value Coupling of Reciprocal Signals.
    Zhang N, Ye S, Wang Z, Li R, Wang M.
    ACS Sens; 2019 Apr 26; 4(4):924-930. PubMed ID: 30924337
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  • 7. Quantitative and Noninvasive Detection of SAH-Related MiRNA in Cerebrospinal Fluids In Vivo Using SERS Sensors Based on Acupuncture-Based Technology.
    Sun J, Song Y, Wang M, Zhao P, Gao F, Li J, Yang M, Yuan H, Sun B, Wang Y.
    ACS Appl Mater Interfaces; 2022 Aug 17; 14(32):37088-37100. PubMed ID: 35938390
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  • 9. Pump-free microfluidic chip based laryngeal squamous cell carcinoma-related microRNAs detection through the combination of surface-enhanced Raman scattering techniques and catalytic hairpin assembly amplification.
    Ge S, Li G, Zhou X, Mao Y, Gu Y, Li Z, Gu Y, Cao X.
    Talanta; 2022 Aug 01; 245():123478. PubMed ID: 35436733
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  • 10. SERS biosensors based on catalytic hairpin self-assembly and hybridization chain reaction cascade signal amplification strategies for ultrasensitive microRNA-21 detection.
    Chen Q, Cao J, Kong H, Chen R, Wang Y, Zhou P, Huang W, Cheng H, Li L, Gao S, Feng J.
    Mikrochim Acta; 2024 Jul 18; 191(8):468. PubMed ID: 39023836
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  • 11. A LoC-SERS platform based on triple signal amplification for highly sensitive detection of colorectal cancer miRNAs.
    Dai C, Wang K, Tan M, Hua Z, Xia L, Qin L.
    Anal Methods; 2023 Aug 24; 15(33):4194-4203. PubMed ID: 37584160
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  • 12. Dual cycle amplification and dual signal enhancement assisted sensitive SERS assay of MicroRNA.
    Wu Y, Li Y, Han H, Zhao C, Zhang X.
    Anal Biochem; 2019 Jan 01; 564-565():16-20. PubMed ID: 30312618
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  • 13. A hairpin DNA-fueled nanoflare for simultaneous illumination of two microRNAs in drug-induced nephrotoxic cells with target catalytic recycling amplification.
    Gao H, Li J, Jia Y, Yu XA, Qi J, Tian J, Yu BY.
    Analyst; 2019 Dec 02; 144(24):7178-7184. PubMed ID: 31647062
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  • 14. Chip-based visual detection of microRNA using DNA-functionalized gold nanoparticles.
    Wang P, Zhao J, Hu B, Cheng Z, Bai Y, Jin Q, Liu H, Mao H, Li S, Zhao J.
    Sci China Life Sci; 2016 May 02; 59(5):510-5. PubMed ID: 26783140
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  • 19. A surface enhanced Raman scattering quantitative analytical platform for detection of trace Cu coupled the catalytic reaction and gold nanoparticle aggregation with label-free Victoria blue B molecular probe.
    Li C, Ouyang H, Tang X, Wen G, Liang A, Jiang Z.
    Biosens Bioelectron; 2017 Jan 15; 87():888-893. PubMed ID: 27662583
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  • 20. SERS-active metal-dielectric nanostructures integrated in microfluidic devices for label-free quantitative detection of miRNA.
    Novara C, Chiadò A, Paccotti N, Catuogno S, Esposito CL, Condorelli G, De Franciscis V, Geobaldo F, Rivolo P, Giorgis F.
    Faraday Discuss; 2017 Dec 04; 205():271-289. PubMed ID: 28884170
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