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Journal Abstract Search

164 related items for PubMed ID: 35930068

  • 21. Liposome-assisted chemical redox cycling strategy for advanced signal amplification: A proof-of-concept toward sensitive electrochemiluminescence immunoassay.
    Cao JT, Fu YZ, Wang YL, Zhang HD, Liu XM, Ren SW, Liu YM.
    Biosens Bioelectron; 2022 Oct 15; 214():114514. PubMed ID: 35780536
    [Abstract] [Full Text] [Related]

  • 22. Electrochemiluminescence-based detection method of lead(II) ion via dual enhancement of intermolecular and intramolecular co-reaction.
    Deng W, Hong LR, Zhao M, Zhuo Y, Gao M.
    Analyst; 2015 Jun 21; 140(12):4206-11. PubMed ID: 25915114
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  • 23. Switchable electrochemiluminescence aptasensor coupled with resonance energy transfer for selective attomolar detection of Hg2+ via CdTe@CdS/dendrimer probe and Au nanoparticle quencher.
    Babamiri B, Salimi A, Hallaj R.
    Biosens Bioelectron; 2018 Apr 15; 102():328-335. PubMed ID: 29161665
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  • 24. Bipotential-resolved electrochemiluminescence biosensor based on Bi2S3@Au nanoflowers for simultaneous detection of Cd(II) and ampicillin in aquatic products.
    Zhai H, Wang Y, Geng L, Guo Q, Zhang Y, Yang Q, Sun X, Guo Y, Zhang Y.
    Food Chem; 2023 Jul 15; 414():135708. PubMed ID: 36809725
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  • 25. DNAzyme assisted recycling amplification method for ultrasensitive amperometric determination of lead(II) based on the use of a hairpin assembly on a composite prepared from nitrogen doped graphene, perylenetetracarboxylic anhydride, thionine and gold nanoparticles.
    Ma Y, Yu C, Yu Y, Chen J, Gao R, He J.
    Mikrochim Acta; 2019 Sep 11; 186(10):677. PubMed ID: 31511998
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  • 26. A novel signal amplified electrochemiluminescence biosensor based on MIL-53(Al)@CdS QDs and SiO2@AuNPs for trichlorfon detection.
    Feng D, Wei F, Wu Y, Tan X, Li F, Lu Y, Fan G, Han H.
    Analyst; 2021 Feb 21; 146(4):1295-1302. PubMed ID: 33350406
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  • 27. Shared hairpin structure electrochemiluminescence biosensor based on Au@Ni-Co metal organic frameworks for simultaneous detection of Pb(II) and S.aureus.
    Zhai H, Wang Y, Guo Q, Zhang Y, Sun X, Guo Y, Zhang Y.
    Talanta; 2024 May 01; 271():125660. PubMed ID: 38219326
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  • 28. Surface-Enhanced Electrochemiluminescence of Ru@SiO2 for Ultrasensitive Detection of Carcinoembryonic Antigen.
    Wang D, Li Y, Lin Z, Qiu B, Guo L.
    Anal Chem; 2015 Jun 16; 87(12):5966-72. PubMed ID: 26009301
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  • 29. Sensitive electrochemiluminescence biosensor based on Au-ITO hybrid bipolar electrode amplification system for cell surface protein detection.
    Wu MS, Yuan DJ, Xu JJ, Chen HY.
    Anal Chem; 2013 Dec 17; 85(24):11960-5. PubMed ID: 24215536
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  • 30. Ru(bpy)32+-Silica@Poly-L-lysine-Au as labels for electrochemiluminescence lysozyme aptasensor based on 3D graphene.
    Du FK, Zhang H, Tan XC, Yan J, Liu M, Chen X, Wu YY, Feng DF, Chen QY, Cen JM, Liu SG, Qiu YQ, Han HY.
    Biosens Bioelectron; 2018 May 30; 106():50-56. PubMed ID: 29414088
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  • 31. RuSi@Ru(bpy)3(2+)/Au@Ag2S nanoparticles electrochemiluminescence resonance energy transfer system for sensitive DNA detection.
    Wu MS, He LJ, Xu JJ, Chen HY.
    Anal Chem; 2014 May 06; 86(9):4559-65. PubMed ID: 24707967
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  • 32. Electrochemiluminescence aptasensor for vascular endothelial growth factor 165 detection based on Ru(bpy)32+/Au nanoparticles film modified electrode and double signal amplification.
    Lin C, Huang Q, Hong X, Hong S, Shu X, Wang E, Wang L, Fu W, Lin Z.
    Bioelectrochemistry; 2022 Aug 06; 146():108151. PubMed ID: 35605452
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  • 33. [Ru(bpy)2(dcbpy)NHS] labeling/aptamer-based biosensor for the detection of lysozyme by increasing sensitivity with gold nanoparticle amplification.
    Bai J, Wei H, Li B, Song L, Fang L, Lv Z, Zhou W, Wang E.
    Chem Asian J; 2008 Nov 13; 3(11):1935-41. PubMed ID: 18767101
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  • 34. Sandwich magnetically imprinted immunosensor for electrochemiluminescence ultrasensing diethylstilbestrol based on enhanced luminescence of Ru@SiO2 by CdTe@ZnS quantum dots.
    Zhao WR, Xu YH, Kang TF, Zhang X, Liu H, Ming AJ, Cheng SY, Wei F.
    Biosens Bioelectron; 2020 May 01; 155():112102. PubMed ID: 32090874
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  • 35. Quenching Electrochemiluminescence Immunosensor Based on Resonance Energy Transfer between Ruthenium (II) Complex Incorporated in the UiO-67 Metal-Organic Framework and Gold Nanoparticles for Insulin Detection.
    Zhao G, Wang Y, Li X, Dong X, Wang H, Du B, Cao W, Wei Q.
    ACS Appl Mater Interfaces; 2018 Jul 11; 10(27):22932-22938. PubMed ID: 29916688
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  • 36. Label-free Hg(II) electrochemiluminescence sensor based on silica nanoparticles doped with a self-enhanced Ru(bpy)32+-carbon nitride quantum dot luminophore.
    Li L, Zhao W, Zhang J, Luo L, Liu X, Li X, You T, Zhao C.
    J Colloid Interface Sci; 2022 Feb 15; 608(Pt 2):1151-1161. PubMed ID: 34735851
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  • 37. Enhanced electrochemiluminescence of RuSi nanoparticles for ultrasensitive detection of ochratoxin A by energy transfer with CdTe quantum dots.
    Wang Q, Chen M, Zhang H, Wen W, Zhang X, Wang S.
    Biosens Bioelectron; 2016 May 15; 79():561-7. PubMed ID: 26749097
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  • 38. Nitrogen-Doped Graphene Quantum Dots@SiO2 Nanoparticles as Electrochemiluminescence and Fluorescence Signal Indicators for Magnetically Controlled Aptasensor with Dual Detection Channels.
    Wang C, Qian J, Wang K, Hua M, Liu Q, Hao N, You T, Huang X.
    ACS Appl Mater Interfaces; 2015 Dec 09; 7(48):26865-73. PubMed ID: 26524349
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  • 39. Sensitive and versatile electrogenerated chemiluminescence biosensing platform for protein kinase based on Ru(bpy)3(2+) functionalized gold nanoparticles mediated signal transduction.
    Dong M, Liu X, Dang Q, Qi H, Huang Y, Gao Q, Zhang C.
    Anal Chim Acta; 2016 Feb 04; 906():72-79. PubMed ID: 26772126
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  • 40. Quench-Type Electrochemiluminescence Immunosensor Based on Resonance Energy Transfer from Carbon Nanotubes and Au-Nanoparticles-Enhanced g-C3N4 to CuO@Polydopamine for Procalcitonin Detection.
    Song C, Li X, Hu L, Shi T, Wu D, Ma H, Zhang Y, Fan D, Wei Q, Ju H.
    ACS Appl Mater Interfaces; 2020 Feb 19; 12(7):8006-8015. PubMed ID: 31972073
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