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Items: 1 to 20 of 126

1.
2.

Highly stable antibacterial silver nanoparticles as selective fluorescent sensor for Fe³⁺ ions.

Makwana BA, Vyas DJ, Bhatt KD, Jain VK, Agrawal YK.

Spectrochim Acta A Mol Biomol Spectrosc. 2015 Jan 5;134:73-80. doi: 10.1016/j.saa.2014.05.044. Epub 2014 Jun 10.

PMID:
25004898
3.

Highly stable water dispersible calix[4]pyrrole octa-hydrazide protected gold nanoparticles as colorimetric and fluorometric chemosensors for selective signaling of Co(II) ions.

Bhatt KD, Vyas DJ, Makwana BA, Darjee SM, Jain VK.

Spectrochim Acta A Mol Biomol Spectrosc. 2014;121:94-100. doi: 10.1016/j.saa.2013.10.076. Epub 2013 Oct 27.

PMID:
24231744
4.
5.

Electropolymerized surface ion imprinting films on a gold nanoparticles/single-wall carbon nanotube nanohybrids modified glassy carbon electrode for electrochemical detection of trace mercury(II) in water.

Fu XC, Wu J, Nie L, Xie CG, Liu JH, Huang XJ.

Anal Chim Acta. 2012 Mar 30;720:29-37. doi: 10.1016/j.aca.2011.12.071. Epub 2012 Jan 24.

PMID:
22365117
6.

Visual detection of Hg2+ with high selectivity using thymine modified gold nanoparticles.

Liu X, Cheng X, Bing T, Fang C, Shangguan D.

Anal Sci. 2010;26(11):1169-72.

7.

[Gold nanoparticles-based localized surface plasmon resonance scattering analysis method for the determination of trace amounts of Hg(II)].

Zheng L, Zhu J, Wu F, Cong YB, Tan KJ.

Guang Pu Xue Yu Guang Pu Fen Xi. 2014 Jun;34(6):1477-81. Chinese.

PMID:
25358149
8.

Novel small stable gold nanoparticles bearing fluorescent cysteine-coumarin probes as new metal-modulated chemosensors.

Oliveira E, Nuñez C, Rodríguez-González B, Capelo JL, Lodeiro C.

Inorg Chem. 2011 Sep 19;50(18):8797-807. doi: 10.1021/ic200664z. Epub 2011 Aug 17.

PMID:
21848292
9.

Colorimetric detection of Fe3+ ions using pyrophosphate functionalized gold nanoparticles.

Wu SP, Chen YP, Sung YM.

Analyst. 2011 May 7;136(9):1887-91. doi: 10.1039/c1an15028f. Epub 2011 Mar 4.

PMID:
21373691
10.

Sensitivity enhancement in the colorimetric detection of lead(II) ion using gallic acid-capped gold nanoparticles: improving size distribution and minimizing interparticle repulsion.

Huang KW, Yu CJ, Tseng WL.

Biosens Bioelectron. 2010 Jan 15;25(5):984-9. doi: 10.1016/j.bios.2009.09.006. Epub 2009 Sep 8.

PMID:
19782557
11.

Colorimetric detection of mercury, lead and copper ions simultaneously using protein-functionalized gold nanoparticles.

Guo Y, Wang Z, Qu W, Shao H, Jiang X.

Biosens Bioelectron. 2011 Jun 15;26(10):4064-9. doi: 10.1016/j.bios.2011.03.033. Epub 2011 Apr 2.

PMID:
21543219
12.
13.

Colorimetric detection of Pb2+ using glutathione functionalized gold nanoparticles.

Chai F, Wang C, Wang T, Li L, Su Z.

ACS Appl Mater Interfaces. 2010 May;2(5):1466-70. doi: 10.1021/am100107k.

PMID:
20429606
14.

"Turn-on" fluorescence detection of lead ions based on accelerated leaching of gold nanoparticles on the surface of graphene.

Fu X, Lou T, Chen Z, Lin M, Feng W, Chen L.

ACS Appl Mater Interfaces. 2012 Feb;4(2):1080-6. doi: 10.1021/am201711j. Epub 2012 Feb 7.

PMID:
22264012
15.

A novel benzothiazole based azocalix[4]arene as a highly selective chromogenic chemosensor for Hg2+ ion: a rapid test application in aqueous environment.

Bingol H, Kocabas E, Zor E, Coskun A.

Talanta. 2010 Sep 15;82(4):1538-42. doi: 10.1016/j.talanta.2010.07.047. Epub 2010 Jul 27.

PMID:
20801369
16.

A facile approach for cupric ion detection in aqueous media using polyethyleneimine/PMMA core-shell fluorescent nanoparticles.

Chen J, Zeng F, Wu S, Su J, Zhao J, Tong Z.

Nanotechnology. 2009 Sep 9;20(36):365502. doi: 10.1088/0957-4484/20/36/365502. Epub 2009 Aug 18.

PMID:
19687556
18.

Lower rim 1,3-di{4-antipyrine}amide conjugate of calix[4]arene: synthesis, characterization, and selective recognition of Hg2+ and its sensitivity toward pyrimidine bases.

Dessingou J, Tabbasum K, Mitra A, Hinge VK, Rao CP.

J Org Chem. 2012 Feb 3;77(3):1406-13. doi: 10.1021/jo2022372. Epub 2012 Jan 20. Erratum in: J Org Chem. 2012 May 4;77(9):4501.

PMID:
22263565
19.

Synthesis, size control and fluorescence studies of gold nanoparticles in carboxymethylated chitosan aqueous solutions.

Huang L, Zhai M, Peng J, Xu L, Li J, Wei G.

J Colloid Interface Sci. 2007 Dec 15;316(2):398-404. Epub 2007 Jul 26.

PMID:
17707389
20.

Spectroscopic and microscopic investigation of gold nanoparticle formation: ligand and temperature effects on rate and particle size.

Sardar R, Shumaker-Parry JS.

J Am Chem Soc. 2011 Jun 1;133(21):8179-90. doi: 10.1021/ja107934h. Epub 2011 May 6.

PMID:
21548572

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