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Journal Abstract Search

730 related items for PubMed ID: 23727141

  • 21. Asymmetrical flow field-flow fractionation with multi-angle light scattering and quasi-elastic light scattering for characterization of polymersomes: comparison with classical techniques.
    Till U, Gaucher-Delmas M, Saint-Aguet P, Hamon G, Marty JD, Chassenieux C, Payré B, Goudounèche D, Mingotaud AF, Violleau F.
    Anal Bioanal Chem; 2014 Dec; 406(30):7841-53. PubMed ID: 24951132
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  • 22. Characterisation of selenium and tellurium nanoparticles produced by Aureobasidium pullulans using a multi-method approach.
    Nwoko KC, Liang X, Perez MA, Krupp E, Gadd GM, Feldmann J.
    J Chromatogr A; 2021 Apr 12; 1642():462022. PubMed ID: 33714080
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  • 23. [Development of an asymmetrical flow field-flow fractionation system for the size characterization of starch granules].
    Guo Y, Song T, Sun Y, Yu Q, Dou H.
    Se Pu; 2021 Nov 12; 39(11):1247-1254. PubMed ID: 34677020
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  • 24. Advanced analysis of polymer emulsions: Particle size and particle size distribution by field-flow fractionation and dynamic light scattering.
    Makan AC, Spallek MJ, du Toit M, Klein T, Pasch H.
    J Chromatogr A; 2016 Apr 15; 1442():94-106. PubMed ID: 26987415
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  • 25. How shape influences uptake: interactions of anisotropic polymer nanoparticles and human mesenchymal stem cells.
    Florez L, Herrmann C, Cramer JM, Hauser CP, Koynov K, Landfester K, Crespy D, Mailänder V.
    Small; 2012 Jul 23; 8(14):2222-30. PubMed ID: 22528663
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  • 26. Rationalizing nanomaterial sizes measured by atomic force microscopy, flow field-flow fractionation, and dynamic light scattering: sample preparation, polydispersity, and particle structure.
    Baalousha M, Lead JR.
    Environ Sci Technol; 2012 Jun 05; 46(11):6134-42. PubMed ID: 22594655
    [Abstract] [Full Text] [Related]

  • 27. Separation and size characterization of highly polydisperse titanium dioxide nanoparticles (E171) in powdered beverages by using Asymmetric Flow Field-Flow Fractionation hyphenated with Multi-Angle Light Scattering and Inductively Coupled Plasma Mass Spectrometry.
    Li B, Chua SL, Yu D, Chan SH, Li A.
    J Chromatogr A; 2021 Apr 26; 1643():462059. PubMed ID: 33780882
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  • 28. Separation and characterization of poly(tetrafluoroethylene) latex particles by asymmetric flow field flow fractionation with light-scattering detection.
    Collins ME, Soto-Cantu E, Cueto R, Russo PS.
    Langmuir; 2014 Apr 01; 30(12):3373-80. PubMed ID: 24635125
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  • 29. Application of asymmetric flow-field flow fractionation to the characterization of colloidal dispersions undergoing aggregation.
    Lattuada M, Olivo C, Gauer C, Storti G, Morbidelli M.
    Langmuir; 2010 May 18; 26(10):7062-71. PubMed ID: 20143795
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  • 30. Quantum dot agglomerates in biological media and their characterization by asymmetrical flow field-flow fractionation.
    Moquin A, Neibert KD, Maysinger D, Winnik FM.
    Eur J Pharm Biopharm; 2015 Jan 18; 89():290-9. PubMed ID: 25542679
    [Abstract] [Full Text] [Related]

  • 31. Quantitative characterization of gold nanoparticles by field-flow fractionation coupled online with light scattering detection and inductively coupled plasma mass spectrometry.
    Schmidt B, Loeschner K, Hadrup N, Mortensen A, Sloth JJ, Koch CB, Larsen EH.
    Anal Chem; 2011 Apr 01; 83(7):2461-8. PubMed ID: 21355549
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  • 32. Asymmetrical flow field-flow fractionation and multiangle light scattering for analysis of gelatin nanoparticle drug carrier systems.
    Fraunhofer W, Winter G, Coester C.
    Anal Chem; 2004 Apr 01; 76(7):1909-20. PubMed ID: 15053651
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  • 33. Measuring particle concentration of multimodal synthetic reference materials and extracellular vesicles with orthogonal techniques: Who is up to the challenge?
    Vogel R, Savage J, Muzard J, Camera GD, Vella G, Law A, Marchioni M, Mehn D, Geiss O, Peacock B, Aubert D, Calzolai L, Caputo F, Prina-Mello A.
    J Extracell Vesicles; 2021 Jan 01; 10(3):e12052. PubMed ID: 33473263
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  • 34. Flow field-flow fractionation for the analysis of nanoparticles used in drug delivery.
    Zattoni A, Roda B, Borghi F, Marassi V, Reschiglian P.
    J Pharm Biomed Anal; 2014 Jan 01; 87():53-61. PubMed ID: 24012480
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  • 35. Optimization and evaluation of asymmetric flow field-flow fractionation of silver nanoparticles.
    Loeschner K, Navratilova J, Legros S, Wagner S, Grombe R, Snell J, von der Kammer F, Larsen EH.
    J Chromatogr A; 2013 Jan 11; 1272():116-25. PubMed ID: 23261297
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  • 36. Size measurement of silica nanoparticles by Asymmetric Flow Field-Flow Fractionation coupled to Multi-Angle Light Scattering: A comparison exercise between two metrological institutes.
    Alasonati E, Caebergs T, Pétry J, Sebaïhi N, Fisicaro P, Feltin N.
    J Chromatogr A; 2021 Feb 08; 1638():461859. PubMed ID: 33465582
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  • 37. Particle size analyses of porous silica and hybrid silica chromatographic support particles. Comparison of flow/hyperlayer field-flow fractionation with scanning electron microscopy, electrical sensing zone, and static light scattering.
    Xu Y.
    J Chromatogr A; 2008 May 16; 1191(1-2):40-56. PubMed ID: 18272159
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  • 38. A detailed analysis of biodegradable nanospheres by different techniques--a combined approach to detect particle sizes and size distributions.
    Augsten C, Kiselev MA, Gehrke R, Hause G, Mäder K.
    J Pharm Biomed Anal; 2008 May 12; 47(1):95-102. PubMed ID: 18242917
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  • 39. Flow dichroism as a reliable method to measure the hydrodynamic aspect ratio of gold nanoparticles.
    Reddy NK, Pérez-Juste J, Pastoriza-Santos I, Lang PR, Dhont JK, Liz-Marzán LM, Vermant J.
    ACS Nano; 2011 Jun 28; 5(6):4935-44. PubMed ID: 21545088
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  • 40. In situ formation of nanoparticles upon dispersion of melt extrudate formulations in aqueous medium assessed by asymmetrical flow field-flow fractionation.
    Kanzer J, Hupfeld S, Vasskog T, Tho I, Hölig P, Mägerlein M, Fricker G, Brandl M.
    J Pharm Biomed Anal; 2010 Nov 02; 53(3):359-65. PubMed ID: 20447794
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