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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

142 related items for PubMed ID: 35286944

  • 1. Simultaneous dual-targeted monitoring of breast cancer circulating miRNA via surface-enhanced Raman spectroscopy.
    Kim J, Park J, Ki J, Rho HW, Huh YM, Kim E, Son HY, Haam S.
    Biosens Bioelectron; 2022 Jul 01; 207():114143. PubMed ID: 35286944
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  • 2. Quantitative and Specific Detection of Exosomal miRNAs for Accurate Diagnosis of Breast Cancer Using a Surface-Enhanced Raman Scattering Sensor Based on Plasmonic Head-Flocked Gold Nanopillars.
    Lee JU, Kim WH, Lee HS, Park KH, Sim SJ.
    Small; 2019 Apr 01; 15(17):e1804968. PubMed ID: 30828996
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  • 4. Quantitative detection of exosomal microRNA extracted from human blood based on surface-enhanced Raman scattering.
    Ma D, Huang C, Zheng J, Tang J, Li J, Yang J, Yang R.
    Biosens Bioelectron; 2018 Mar 15; 101():167-173. PubMed ID: 29073517
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  • 5. A label-free, ultra-highly sensitive and multiplexed SERS nanoplasmonic biosensor for miRNA detection using a head-flocked gold nanopillar.
    Kim WH, Lee JU, Song S, Kim S, Choi YJ, Sim SJ.
    Analyst; 2019 Feb 25; 144(5):1768-1776. PubMed ID: 30672519
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  • 6. SERS and electrochemical dual-mode detection of miRNA-141 by using single Au@Ag nanowire as a new platform.
    Luo X, Dai Q, Qiu X, Wang D, Li Y.
    Anal Bioanal Chem; 2024 Sep 25; 416(21):4717-4726. PubMed ID: 38970677
    [Abstract] [Full Text] [Related]

  • 7. 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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  • 8. SERS-based direct and sandwich assay methods for mir-21 detection.
    Guven B, Dudak FC, Boyaci IH, Tamer U, Ozsoz M.
    Analyst; 2014 Mar 07; 139(5):1141-7. PubMed ID: 24418951
    [Abstract] [Full Text] [Related]

  • 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
    [Abstract] [Full Text] [Related]

  • 10. An advanced 3D DNA nanoplatform for spatiotemporally confined enhanced dual-mode biosensing MicroRNA in cancer cell.
    Liu B, Li X, Li Y, Zhang F, Xie J, Xu Y, Xu E, Zhang Q, Liu S, Xue Q.
    Biosens Bioelectron; 2024 Nov 01; 263():116619. PubMed ID: 39094291
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  • 12. Spectroelectrochemical detection of microRNA-155 based on functional RNA immobilization onto ITO/GNP nanopattern.
    Mohammadniaei M, Yoon J, Lee T, Choi JW.
    J Biotechnol; 2018 May 20; 274():40-46. PubMed ID: 29588181
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  • 15. Simultaneous and highly sensitive detection of multiple breast cancer biomarkers in real samples using a SERS microfluidic chip.
    Zheng Z, Wu L, Li L, Zong S, Wang Z, Cui Y.
    Talanta; 2018 Oct 01; 188():507-515. PubMed ID: 30029406
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  • 16. Au@Ag core-shell nanoparticles for microRNA-21 determination based on duplex-specific nuclease signal amplification and surface-enhanced Raman scattering.
    Xu W, Zhao A, Zuo F, Khan R, Hussain HMJ, Chang J.
    Mikrochim Acta; 2020 Jun 12; 187(7):384. PubMed ID: 32533266
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  • 18. Low-Cost Label-Free Biosensing Bimetallic Cellulose Strip with SILAR-Synthesized Silver Core-Gold Shell Nanoparticle Structures.
    Kim W, Lee JC, Lee GJ, Park HK, Lee A, Choi S.
    Anal Chem; 2017 Jun 20; 89(12):6448-6454. PubMed ID: 28509533
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