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PUBMED FOR HANDHELDS

Journal Abstract Search


170 related items for PubMed ID: 36055149

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  • 3. An ultrasensitive signal-on electrochemical aptasensor for ochratoxin A determination based on DNA controlled layer-by-layer assembly of dual gold nanoparticle conjugates.
    Chen W, Yan C, Cheng L, Yao L, Xue F, Xu J.
    Biosens Bioelectron; 2018 Oct 15; 117():845-851. PubMed ID: 30096739
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  • 4. Rolling chain amplification based signal-enhanced electrochemical aptasensor for ultrasensitive detection of ochratoxin A.
    Huang L, Wu J, Zheng L, Qian H, Xue F, Wu Y, Pan D, Adeloju SB, Chen W.
    Anal Chem; 2013 Nov 19; 85(22):10842-9. PubMed ID: 24206525
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  • 6. Development of a Nafion-MWCNTs and in-situ generated Au nanopopcorns dual-amplification electrochemical aptasensor for ultrasensitive detection of OTA.
    Hou Y, Long N, Xu Q, Li Y, Song P, Yang M, Wang J, Zhou L, Sheng P, Kong W.
    Food Chem; 2023 Mar 01; 403():134375. PubMed ID: 36162268
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  • 7. A Polyamidoamine-Based Electrochemical Aptasensor for Sensitive Detection of Ochratoxin A.
    Chen X, Gao D, Chen J, Wang X, Peng C, Gao H, Wang Y, Li Z, Niu H.
    Biosensors (Basel); 2023 Oct 26; 13(11):. PubMed ID: 37998130
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  • 8. Ultrasensitive one-step rapid detection of ochratoxin A by the folding-based electrochemical aptasensor.
    Wu J, Chu H, Mei Z, Deng Y, Xue F, Zheng L, Chen W.
    Anal Chim Acta; 2012 Nov 13; 753():27-31. PubMed ID: 23107133
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  • 9. Simple Design Concept for Dual-Channel Detection of Ochratoxin A Based on Bifunctional Metal-Organic Framework.
    Li W, Zhang X, Hu X, Shi Y, Liang N, Huang X, Wang X, Shen T, Zou X, Shi J.
    ACS Appl Mater Interfaces; 2022 Feb 02; 14(4):5615-5623. PubMed ID: 35050582
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  • 11. Development of Ochratoxin A Aptasensor Based on Au Nanoparticles@g-C₃N₄.
    Xia X, Li M, Wang M, Gu MQ, Chi KN, Yang YH, Hu R.
    J Biomed Nanotechnol; 2020 Aug 01; 16(8):1296-1303. PubMed ID: 33397558
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  • 12. The role of band structure in Co- and Fe-co-doped Ba0.5Sr0.5Zr0.1Y0.1O3-δ perovskite semiconductor to design an electrochemical aptasensing platform: application in label-free detection of ochratoxin A using voltammetry.
    Rauf S, Awan M, Rauf N, Tayyab Z, Ali N, Zhu B, Hayat A, Yang CP.
    Mikrochim Acta; 2021 Apr 28; 188(5):177. PubMed ID: 33907901
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  • 13. Ultrasensitive electrochemical detection of ochratoxin A based on signal amplification by one-pot synthesized flower-like PEDOT-AuNFs supported on a graphene oxide sponge.
    Wang P, Wang L, Ding M, Pei M, Guo W.
    Analyst; 2019 Oct 07; 144(19):5866-5874. PubMed ID: 31482879
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  • 16. An accurate and ultrasensitive ratiometric electrochemical aptasensor for determination of Ochratoxin A based on catalytic hairpin assembly.
    Liu Y, Guo W, Zhang Y, Lu X, Yang Q, Zhang W.
    Food Chem; 2023 Oct 15; 423():136301. PubMed ID: 37178599
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  • 18. A label-free ratiometric homogeneous electrochemical aptasensor based on dual catalytic hairpin self-assembly for rapid and sensitive detection of ochratoxin A in food.
    Ma J, Zhang Y, Lu X, Xu H, Qi C, Zhang W.
    Food Chem; 2024 Sep 30; 453():139651. PubMed ID: 38761736
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  • 19. Surface-enhanced Raman spectroscopy aptasensor for simultaneous determination of ochratoxin A and zearalenone using Au@Ag core-shell nanoparticles and gold nanorods.
    Chen R, Li S, Sun Y, Huo B, Xia Y, Qin Y, Li S, Shi B, He D, Liang J, Gao Z.
    Mikrochim Acta; 2021 Jul 31; 188(8):281. PubMed ID: 34331147
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  • 20. Ratiometric electrochemical aptasensor for ultrasensitive detection of Ochratoxin A based on a dual signal amplification strategy: Engineering the binding of methylene blue to DNA.
    Zhu C, Liu D, Li Y, Shen X, Ma S, Liu Y, You T.
    Biosens Bioelectron; 2020 Feb 15; 150():111814. PubMed ID: 31740254
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