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Pubmed for Handhelds

PUBMED FOR HANDHELDS

Journal Abstract Search

565 related items for PubMed ID: 24209307

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  • 3. Synthesis of silver nanowires as a SERS substrate for the detection of pesticide thiram.
    Zhang L, Wang B, Zhu G, Zhou X.
    Spectrochim Acta A Mol Biomol Spectrosc; 2014 Dec 10; 133():411-6. PubMed ID: 24973781
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  • 4. High Surface-Enhanced Raman Scattering (SERS) Amplification Factor Obtained with Silver Printed Circuit Boards and the Influence of Phenolic Resins for the Characterization of the Pesticide Thiram.
    Silva de Almeida F, Bussler L, Marcio Lima S, Fiorucci AR, da Cunha Andrade LH.
    Appl Spectrosc; 2016 Jul 10; 70(7):1157-64. PubMed ID: 27279502
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  • 5. A novel paper rag as 'D-SERS' substrate for detection of pesticide residues at various peels.
    Zhu Y, Li M, Yu D, Yang L.
    Talanta; 2014 Oct 10; 128():117-24. PubMed ID: 25059138
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  • 6. Nanofibrillar cellulose/Au@Ag nanoparticle nanocomposite as a SERS substrate for detection of paraquat and thiram in lettuce.
    Asgari S, Sun L, Lin J, Weng Z, Wu G, Zhang Y, Lin M.
    Mikrochim Acta; 2020 Jun 16; 187(7):390. PubMed ID: 32548791
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  • 8. Polystyrene/Ag nanoparticles as dynamic surface-enhanced Raman spectroscopy substrates for sensitive detection of organophosphorus pesticides.
    Li P, Dong R, Wu Y, Liu H, Kong L, Yang L.
    Talanta; 2014 Sep 16; 127():269-75. PubMed ID: 24913887
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  • 9. Graphene oxide embedded sandwich nanostructures for enhanced Raman readout and their applications in pesticide monitoring.
    Zhang L, Jiang C, Zhang Z.
    Nanoscale; 2013 May 07; 5(9):3773-9. PubMed ID: 23535912
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  • 10. Plasmonic core-shell nanoparticles for SERS detection of the pesticide thiram: size- and shape-dependent Raman enhancement.
    Guo P, Sikdar D, Huang X, Si KJ, Xiong W, Gong S, Yap LW, Premaratne M, Cheng W.
    Nanoscale; 2015 Feb 21; 7(7):2862-8. PubMed ID: 25599516
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  • 11. Fabrication of flexible SERS substrate based on Au nanostars and PDMS for sensitive detection of Thiram residue in apple juice.
    Zhang Y, Wang Y, Liu A, Liu S.
    Spectrochim Acta A Mol Biomol Spectrosc; 2023 Sep 05; 297():122721. PubMed ID: 37054572
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  • 14. Flexible fabrication of a paper-fluidic SERS sensor coated with a monolayer of core-shell nanospheres for reliable quantitative SERS measurements.
    Lin S, Lin X, Han S, Liu Y, Hasi W, Wang L.
    Anal Chim Acta; 2020 Apr 29; 1108():167-176. PubMed ID: 32222238
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  • 15. Hotspots engineering by grafting Au@Ag core-shell nanoparticles on the Au film over slightly etched nanoparticles substrate for on-site paraquat sensing.
    Wang C, Wu X, Dong P, Chen J, Xiao R.
    Biosens Bioelectron; 2016 Dec 15; 86():944-950. PubMed ID: 27498319
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  • 16. Facile fabrication of flexible AuNPs@CDA SERS substrate for enrichment and detection of thiram pesticide in water.
    Yu H, Guo D, Zhang H, Jia X, Han L, Xiao W.
    Spectrochim Acta A Mol Biomol Spectrosc; 2023 Jan 15; 285():121930. PubMed ID: 36191437
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  • 17. Highly Sensitive and Reproducible SERS Performance from Uniform Film Assembled by Magnetic Noble Metal Composite Microspheres.
    Niu C, Zou B, Wang Y, Cheng L, Zheng H, Zhou S.
    Langmuir; 2016 Jan 26; 32(3):858-63. PubMed ID: 26731200
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  • 19. Rapid simultaneous detection of multi-pesticide residues on apple using SERS technique.
    Zhang Y, Wang Z, Wu L, Pei Y, Chen P, Cui Y.
    Analyst; 2014 Oct 21; 139(20):5148-54. PubMed ID: 25105174
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  • 20. Multi-branched gold nanostars with fractal structure for SERS detection of the pesticide thiram.
    Zhu J, Liu MJ, Li JJ, Li X, Zhao JW.
    Spectrochim Acta A Mol Biomol Spectrosc; 2018 Jan 15; 189():586-593. PubMed ID: 28881284
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