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PUBMED FOR HANDHELDS

Journal Abstract Search


242 related items for PubMed ID: 36642146

  • 21. Colorimetric and smartphone-integrated paper device for on-site determination of arsenic (III) using sucrose modified gold nanoparticles as a nanoprobe.
    Shrivas K, Patel S, Sinha D, Thakur SS, Patle TK, Kant T, Dewangan K, Satnami ML, Nirmalkar J, Kumar S.
    Mikrochim Acta; 2020 Feb 18; 187(3):173. PubMed ID: 32072273
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  • 22. Novel biogenic gold nanoparticles stabilized on poly(styrene-co-maleic anhydride) as an effective material for reduction of nitrophenols and colorimetric detection of Pb(II).
    Nguyen THA, Le TTV, Huynh BA, Nguyen NV, Le VT, Doan VD, Tran VA, Nguyen AT, Cao XT, Vasseghian Y.
    Environ Res; 2022 Sep 18; 212(Pt B):113281. PubMed ID: 35461847
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  • 23. Colorimetric sensing strategy for mercury(II) and melamine utilizing cysteamine-modified gold nanoparticles.
    Ma Y, Jiang L, Mei Y, Song R, Tian D, Huang H.
    Analyst; 2013 Sep 21; 138(18):5338-43. PubMed ID: 23875182
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  • 24. A novel colorimetric aptasensor for ultrasensitive detection of cocaine based on the formation of three-way junction pockets on the surfaces of gold nanoparticles.
    Abnous K, Danesh NM, Ramezani M, Taghdisi SM, Emrani AS.
    Anal Chim Acta; 2018 Aug 22; 1020():110-115. PubMed ID: 29655421
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  • 25. On-site and low-cost detection of cyanide by simple colorimetric and fluorogenic sensors: Smartphone and test strip applications.
    Erdemir S, Malkondu S.
    Talanta; 2020 Jan 15; 207():120278. PubMed ID: 31594612
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  • 26. Colorimetric sensing of selenocystine using gold nanoparticles.
    Liu L, Wang X, Yang J, Bai Y.
    Anal Biochem; 2017 Oct 15; 535():19-24. PubMed ID: 28739132
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  • 27. A Portable Smart-Phone Readout Device for the Detection of Mercury Contamination Based on an Aptamer-Assay Nanosensor.
    Xiao W, Xiao M, Fu Q, Yu S, Shen H, Bian H, Tang Y.
    Sensors (Basel); 2016 Nov 08; 16(11):. PubMed ID: 27834794
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  • 28. Colorimetric assay for sulfate using positively-charged gold nanoparticles and its application for real-time monitoring of redox process.
    Zhang M, Liu YQ, Ye BC.
    Analyst; 2011 Nov 07; 136(21):4558-62. PubMed ID: 21946768
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  • 29. Inhibition of catalytic activity of fibrinogen-stabilized gold nanoparticles via thrombin-induced inclusion of nanoparticle into fibrin: Application for thrombin sensing with more than 104-fold selectivity.
    Lin JH, Huang KH, Zhan SW, Yu CJ, Tseng WL, Hsieh MM.
    Spectrochim Acta A Mol Biomol Spectrosc; 2019 Mar 05; 210():59-65. PubMed ID: 30445261
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  • 30. Smartphone-assisted colorimetric sensing of enzyme-substrate system using pH-responsive gold nanoparticle assembly.
    Zou L, Mai C, Li M, Lai Y.
    Anal Chim Acta; 2021 Sep 15; 1178():338804. PubMed ID: 34482869
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  • 31. Gold Nanoparticles-Based Colorimetric Assays for Environmental Monitoring and Food Safety Evaluation.
    Sadiq Z, Safiabadi Tali SH, Hajimiri H, Al-Kassawneh M, Jahanshahi-Anbuhi S.
    Crit Rev Anal Chem; 2024 Sep 15; 54(7):2209-2244. PubMed ID: 36629748
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  • 32. Real Colorimetric Thrombin Aptasensor by Masking Surfaces of Catalytically Active Gold Nanoparticles.
    Chen Z, Tan L, Hu L, Zhang Y, Wang S, Lv F.
    ACS Appl Mater Interfaces; 2016 Jan 13; 8(1):102-8. PubMed ID: 26558607
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  • 33. Recyclable colorimetric sensor of Cr3+ and Pb2+ ions simultaneously using a zwitterionic amino acid modified gold nanoparticles.
    Sang F, Li X, Zhang Z, Liu J, Chen G.
    Spectrochim Acta A Mol Biomol Spectrosc; 2018 Mar 15; 193():109-116. PubMed ID: 29223455
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  • 34. Nanodiamonds conjugated to gold nanoparticles for colorimetric detection of clenbuterol and chromium(III) in urine.
    Shellaiah M, Simon T, Venkatesan P, Sun KW, Ko FH, Wu SP.
    Mikrochim Acta; 2017 Dec 20; 185(1):74. PubMed ID: 29594526
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  • 35. DNA based gold nanoparticles colorimetric sensors for sensitive and selective detection of Ag(I) ions.
    Li B, Du Y, Dong S.
    Anal Chim Acta; 2009 Jun 30; 644(1-2):78-82. PubMed ID: 19463566
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  • 36. A Simple Colorimetric Chemosensor for Naked Eye Detection of Cyanide Ion.
    Gholamzadeh P, Mohammadi Ziarani G, Lashgari N, Badiei A, Shayesteh A, Jafari M.
    J Fluoresc; 2016 Sep 30; 26(5):1857-64. PubMed ID: 27448224
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  • 37. Colorimetric determination of cysteamine based on the aggregation of polyvinylpyrrolidone-stabilized silver nanoparticles.
    Shanmugaraj K, Sasikumar T, Campos CH, Ilanchelian M, Mangalaraja RV, Torres CC.
    Spectrochim Acta A Mol Biomol Spectrosc; 2020 Aug 05; 236():118281. PubMed ID: 32335419
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  • 38. A low pH-based rapid and direct colorimetric sensing of bacteria using unmodified gold nanoparticles.
    Du J, Yu Z, Hu Z, Chen J, Zhao J, Bai Y.
    J Microbiol Methods; 2021 Jan 05; 180():106110. PubMed ID: 33271208
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  • 39. Blue-to-red colorimetric sensing strategy for Hg²⁺ and Ag⁺ via redox-regulated surface chemistry of gold nanoparticles.
    Lou T, Chen Z, Wang Y, Chen L.
    ACS Appl Mater Interfaces; 2011 May 05; 3(5):1568-73. PubMed ID: 21469714
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  • 40. Colorimetric detection of ammonia using smartphones based on localized surface plasmon resonance of silver nanoparticles.
    Amirjani A, Fatmehsari DH.
    Talanta; 2018 Jan 01; 176():242-246. PubMed ID: 28917747
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