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Journal Abstract Search

209 related items for PubMed ID: 22762258

  • 1. Using gold nanoclusters as selective luminescent probes for phosphate-containing metabolites.
    Li PH, Lin JY, Chen CT, Ciou WR, Chan PH, Luo L, Hsu HY, Diau EW, Chen YC.
    Anal Chem; 2012 Jul 03; 84(13):5484-8. PubMed ID: 22762258
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  • 3. Cerium(iii)-directed assembly of glutathione-capped gold nanoclusters for sensing and imaging of alkaline phosphatase-mediated hydrolysis of adenosine triphosphate.
    You JG, Lu CY, Krishna Kumar AS, Tseng WL.
    Nanoscale; 2018 Sep 27; 10(37):17691-17698. PubMed ID: 30206623
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  • 4. Glutathione-bound gold nanoclusters for selective-binding and detection of glutathione S-transferase-fusion proteins from cell lysates.
    Chen CT, Chen WJ, Liu CZ, Chang LY, Chen YC.
    Chem Commun (Camb); 2009 Dec 28; (48):7515-7. PubMed ID: 20024264
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  • 6. Peptide-induced aggregation of glutathione-capped gold nanoclusters: A new strategy for designing aggregation-induced enhanced emission probes.
    You JG, Tseng WL.
    Anal Chim Acta; 2019 Oct 31; 1078():101-111. PubMed ID: 31358207
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  • 7. An ultra-sensitive and colorimetric sensor for copper and iron based on glutathione-functionalized gold nanoclusters.
    Zhao Q, Yan H, Liu P, Yao Y, Wu Y, Zhang J, Li H, Gong X, Chang J.
    Anal Chim Acta; 2016 Dec 15; 948():73-79. PubMed ID: 27871612
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  • 9. Human serum albumin stabilized gold nanoclusters as selective luminescent probes for Staphylococcus aureus and methicillin-resistant Staphylococcus aureus.
    Chan PH, Chen YC.
    Anal Chem; 2012 Nov 06; 84(21):8952-6. PubMed ID: 23088348
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  • 11. Supramolecular Self-Assembly Bioinspired Synthesis of Luminescent Gold Nanocluster-Embedded Peptide Nanofibers for Temperature Sensing and Cellular Imaging.
    Zhang W, Lin D, Wang H, Li J, Nienhaus GU, Su Z, Wei G, Shang L.
    Bioconjug Chem; 2017 Sep 20; 28(9):2224-2229. PubMed ID: 28787136
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  • 12. A ratiometric fluorescent probe for sensitive, selective and reversible detection of copper (II) based on riboflavin-stabilized gold nanoclusters.
    Zhang M, Le HN, Jiang XQ, Guo SM, Yu HJ, Ye BC.
    Talanta; 2013 Dec 15; 117():399-404. PubMed ID: 24209359
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  • 13. Selective determination of cysteine using BSA-stabilized gold nanoclusters with red emission.
    Cui ML, Liu JM, Wang XX, Lin LP, Jiao L, Zhang LH, Zheng ZY, Lin SQ.
    Analyst; 2012 Nov 21; 137(22):5346-51. PubMed ID: 23033064
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  • 14. Synthesis of functionalized fluorescent gold nanoclusters for acid phosphatase sensing.
    Sun J, Yang F, Yang X.
    Nanoscale; 2015 Oct 21; 7(39):16372-80. PubMed ID: 26391420
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  • 15. Ultrabright Luminescence from Gold Nanoclusters: Rigidifying the Au(I)-Thiolate Shell.
    Pyo K, Thanthirige VD, Kwak K, Pandurangan P, Ramakrishna G, Lee D.
    J Am Chem Soc; 2015 Jul 01; 137(25):8244-50. PubMed ID: 26061198
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  • 16. Sensitive and selective nitrite assay based on fluorescent gold nanoclusters and Fe2+/Fe3+ redox reaction.
    Deng HH, Huang KY, Zhang MJ, Zou ZY, Xu YY, Peng HP, Chen W, Hong GL.
    Food Chem; 2020 Jul 01; 317():126456. PubMed ID: 32109661
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  • 17. Detection of ricin by using gold nanoclusters functionalized with chicken egg white proteins as sensing probes.
    Selvaprakash K, Chen YC.
    Biosens Bioelectron; 2017 Jun 15; 92():410-416. PubMed ID: 27836610
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  • 18. Highly luminescent Ag+ nanoclusters for Hg2+ ion detection.
    Yuan X, Yeow TJ, Zhang Q, Lee JY, Xie J.
    Nanoscale; 2012 Mar 21; 4(6):1968-71. PubMed ID: 22337327
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  • 19. Multidentate europium chelates as luminoionophores for anion recognition: impact of ligand design on sensitivity and selectivity, and applicability to enzymatic assays.
    Schäferling M, Aäritalo T, Soukka T.
    Chemistry; 2014 Apr 25; 20(18):5298-308. PubMed ID: 24677658
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  • 20. Dithiothreitol-capped fluorescent gold nanoclusters: an efficient probe for detection of copper(II) ions in aqueous solution.
    Ding H, Liang C, Sun K, Wang H, Hiltunen JK, Chen Z, Shen J.
    Biosens Bioelectron; 2014 Sep 15; 59():216-20. PubMed ID: 24727608
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