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Journal Abstract Search

187 related items for PubMed ID: 35687951

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  • 3. An aptasensor for troponin I based on the aggregation-induced electrochemiluminescence of nanoparticles prepared from a cyclometallated iridium(III) complex and poly(4-vinylpyridine-co-styrene) deposited on nitrogen-doped graphene.
    Saremi M, Amini A, Heydari H.
    Mikrochim Acta; 2019 Mar 22; 186(4):254. PubMed ID: 30903376
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  • 4. Nanoparticle-based electrochemiluminescence immunosensor with enhanced sensitivity for cardiac troponin I using N-(aminobutyl)-N-(ethylisoluminol)-functionalized gold nanoparticles as labels.
    Shen W, Tian D, Cui H, Yang D, Bian Z.
    Biosens Bioelectron; 2011 Sep 15; 27(1):18-24. PubMed ID: 21752633
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  • 7. A dry chemistry-based ultrasensitive electrochemiluminescence immunosensor for sample-to-answer detection of Cardiac Troponin I.
    Zhan T, Su Y, Lai W, Chen Z, Zhang C.
    Biosens Bioelectron; 2022 Oct 15; 214():114494. PubMed ID: 35779407
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  • 12. Potential-Resolved Differential Electrochemiluminescence Immunosensor for Cardiac Troponin I Based on MOF-5-Wrapped CdS Quantum Dot Nanoluminophores.
    Du D, Shu J, Guo M, Haghighatbin MA, Yang D, Bian Z, Cui H.
    Anal Chem; 2020 Oct 20; 92(20):14113-14121. PubMed ID: 32962342
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  • 13. Fouling-Free electrochemical strategy based on vertically-aligned peptide layer for cardiac troponin I sensitive detection in human serum.
    Qin X, Zhu X, Wang Y.
    Anal Chim Acta; 2024 Aug 15; 1317():342866. PubMed ID: 39030026
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  • 14. A dual-signal electrochemiluminescence immunosensor for high-sensitivity detection of acute myocardial infarction biomarker.
    Hong C, Zhang P, Lu K, Ji Y, He S, Liu D, Jia N.
    Biosens Bioelectron; 2021 Dec 15; 194():113591. PubMed ID: 34500228
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  • 15. Reduced graphene oxide-gold nanoparticles-catalase-based dual signal amplification strategy in a spatial-resolved ratiometric electrochemiluminescence immunoassay.
    Cao JT, Fu XL, Liu FR, Ren SW, Liu YM.
    Analyst; 2019 Dec 16; 145(1):91-96. PubMed ID: 31742265
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  • 16. Label-free immunosensor for cardiac troponin I detection based on aggregation-induced electrochemiluminescence of a distyrylarylene derivative.
    Yan M, Feng S, Yu L, Xue Y, Huang J, Yang X.
    Biosens Bioelectron; 2021 Nov 15; 192():113532. PubMed ID: 34330035
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  • 17. Copper(II)-Tannic Acid@Cu with In Situ Grown Gold Nanoparticles as a Bifunctional Matrix for Facile Construction of Label-Free and Ultrasensitive Electrochemical cTnI Immunosensor.
    Liu X, Yang H, Ni J, Zheng X, Song Z, Gao F, Wang Q.
    ACS Appl Bio Mater; 2024 Aug 19; 7(8):5258-5267. PubMed ID: 39103296
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  • 18. Electrochemiluminescence biosensor for cardiac troponin I with signal amplification based on a MoS2@Cu2O-Ag-modified electrode and Ce:ZnO-NGQDs.
    Wang B, Wang C, Li Y, Liu X, Wu D, Wei Q.
    Analyst; 2022 Oct 24; 147(21):4768-4776. PubMed ID: 36149312
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  • 19. Electrochemical immunosensor for highly sensitive detection of cTnI via in-situ initiated ROP signal amplification strategy.
    Cheng D, Zhou Z, Shang S, Wang H, Guan H, Yang H, Liu Y.
    Anal Chim Acta; 2022 Aug 01; 1219():340032. PubMed ID: 35715132
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  • 20. Electrochemical immunosensor based on Au/Co-BDC/MoS2 and DPCN/MoS2 for the detection of cardiac troponin I.
    Zhao H, Du X, Dong H, Jin D, Tang F, Liu Q, Wang P, Chen L, Zhao P, Li Y.
    Biosens Bioelectron; 2021 Mar 01; 175():112883. PubMed ID: 33341318
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