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Pubmed for Handhelds

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Journal Abstract Search

210 related items for PubMed ID: 26726431

  • 21. Doping effect and fluorescence quenching mechanism of N-doped graphene quantum dots in the detection of dopamine.
    Ma Y, Chen AY, Xie XF, Wang XY, Wang D, Wang P, Li HJ, Yang JH, Li Y.
    Talanta; 2019 May 01; 196():563-571. PubMed ID: 30683406
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  • 25. Quantum-dot/dopamine bioconjugates function as redox coupled assemblies for in vitro and intracellular pH sensing.
    Medintz IL, Stewart MH, Trammell SA, Susumu K, Delehanty JB, Mei BC, Melinger JS, Blanco-Canosa JB, Dawson PE, Mattoussi H.
    Nat Mater; 2010 Aug 01; 9(8):676-84. PubMed ID: 20651808
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  • 29. Highly sensitive and selective detection of dopamine with boron and sulfur co-doped graphene quantum dots.
    Chatterjee M, Nath P, Kadian S, Kumar A, Kumar V, Roy P, Manik G, Satapathi S.
    Sci Rep; 2022 May 31; 12(1):9061. PubMed ID: 35641637
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  • 30. Manganese modified CdTe/CdS quantum dots as an immunoassay biosensor for the detection of Golgi protein-73.
    Liu W, Zhang A, Xu G, Wei F, Yang J, Hu Q.
    J Pharm Biomed Anal; 2016 Jan 05; 117():18-25. PubMed ID: 26340559
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  • 31. DNA-conjugated quantum dot nanoprobe for high-sensitivity fluorescent detection of DNA and micro-RNA.
    Su S, Fan J, Xue B, Yuwen L, Liu X, Pan D, Fan C, Wang L.
    ACS Appl Mater Interfaces; 2014 Jan 22; 6(2):1152-7. PubMed ID: 24380365
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  • 32. Hydrothermal Synthesis of Nitrogen-Doped Carbon Quantum Dots as Fluorescent Probes for the Detection of Dopamine.
    Zhao C, Jiao Y, Hua J, Yang J, Yang Y.
    J Fluoresc; 2018 Jan 22; 28(1):269-276. PubMed ID: 29116607
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  • 33. Quantum dots as a possible oxygen sensor.
    Ziółczyk P, Kur-Kowalska K, Przybyt M, Miller E.
    Spectrochim Acta A Mol Biomol Spectrosc; 2014 May 21; 126():28-35. PubMed ID: 24568848
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  • 34. Green Luminescent CdTe Quantum Dot Based Fluorescence Nano-Sensor for Sensitive Detection of Arsenic (III).
    Vaishanav SK, Korram J, Pradhan P, Chandraker K, Nagwanshi R, Ghosh KK, Satnami ML.
    J Fluoresc; 2017 May 21; 27(3):781-789. PubMed ID: 28032282
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  • 35. How Quantum Dots Aggregation Enhances Förster Resonant Energy Transfer.
    Hottechamps J, Noblet T, Brans A, Humbert C, Dreesen L.
    Chemphyschem; 2020 May 05; 21(9):853-862. PubMed ID: 32084295
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  • 36. Target-driven switch-on fluorescence aptasensor for trace aflatoxin B1 determination based on highly fluorescent ternary CdZnTe quantum dots.
    Lu X, Wang C, Qian J, Ren C, An K, Wang K.
    Anal Chim Acta; 2019 Jan 24; 1047():163-171. PubMed ID: 30567646
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  • 37. Rapid and sensitive fluorescence and smartphone dual-mode detection of dopamine based on nitrogen-boron co-doped carbon quantum dots.
    Dadkhah S, Mehdinia A, Jabbari A, Manbohi A.
    Mikrochim Acta; 2020 Sep 15; 187(10):569. PubMed ID: 32930878
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  • 38. Label-free fluorescence assay for thrombin based on unmodified quantum dots.
    Li L, Lin H, Lei C, Nie Z, Huang Y, Yao S.
    Biosens Bioelectron; 2014 Apr 15; 54():42-7. PubMed ID: 24240167
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  • 39. Dopamine fluorescent sensors based on polypyrrole/graphene quantum dots core/shell hybrids.
    Zhou X, Ma P, Wang A, Yu C, Qian T, Wu S, Shen J.
    Biosens Bioelectron; 2015 Feb 15; 64():404-10. PubMed ID: 25278481
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  • 40. In situ energy transfer quenching of quantum dot electrochemiluminescence for sensitive detection of cancer biomarkers.
    Yang M, Chen Y, Xiang Y, Yuan R, Chai Y.
    Biosens Bioelectron; 2013 Dec 15; 50():393-8. PubMed ID: 23891869
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