Studies on Membrane Fouling Monitoring by Fluorescence Nano Particle and Fluorescent Spectrometry
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Seo, Mi-Rae
(Environment & Resources Research Center, Korea Research Institute of Chemical Technology)
Nam, Mi-Yeon (R&D Institute, Woongjin Chemical Co., Ltd.) Kim, Beom-Sik (Environment & Resources Research Center, Korea Research Institute of Chemical Technology) Nam, Seung-Eun (Environment & Resources Research Center, Korea Research Institute of Chemical Technology) Kim, In-Chul (Environment & Resources Research Center, Korea Research Institute of Chemical Technology) Park, You-In (Environment & Resources Research Center, Korea Research Institute of Chemical Technology) |
1 | E. S. Tarleton and R. J. Wakeman, "Understanding flux decline in crossflow microfiltration. 1. Effects of particle and pore size", Chem. Eng. Res. Des., 71(A4), 399 (1993). |
2 | R. S. Faibish, M. Elimelech, and Y. Cohen, "Effect of interparticle electrostatic double layer interations on permeate flux decline in crossflow membrane filtration of colloidal suspensions-an experimental investigation", J. Colloid Interface Sci., 204, 77 (1998). DOI ScienceOn |
3 | T. Eighmy, D. Maratea, and P. L. Bishop, "Electron microscopic examination of wastewater biofilm formation and structural components", Appl. Environ. Microbiol., 45(6), 1921 (1983). |
4 | W. Chan, D. J. Maxwell, X. Gao, R. E. Bailey, M. Han, and S. Nie, "Luminescent quantum dots for multiplexed biological detection and imaging", Curr. Opin. Biotechnol., 13, 40 (2002). DOI ScienceOn |
5 | M. Y. Han, X. Gao, J. Z. Su, and S. M. Nle, "Quantum-dot-tagged microbeads for multiplexed optical coding of biomolecules", Nat. Biotechnol., 19, 631 (2001). DOI ScienceOn |
6 | T. J. Deerinck, "The application of fluorescent quantum dots to confocal, multiphoton, and electron microscopic imaging", Toxicol. Pathol., 36, 112, (2008). DOI ScienceOn |
7 | H. Manen and C. Otto, "Hybrid confocal raman fluorescence microscopy on single cells using semiconductor quantum dots", Nano Lett., 7(6), 1631 (2007). DOI ScienceOn |
8 | M. E. Davis, Z. Chen, and D. M. Shin, "Nanoparticle therapeutics: an emerging treatment modality for cancer", Nat. Rev. Drug Discovery, 7, 771 (2008). DOI ScienceOn |
9 | L. J. Zeman and A. L. Zydney, "Microfiltration and Ultrafiltration: Principles and Applications", Marcel Dekker, New York (1996). |
10 | J. C. Chen, Q. Li, and M. Elimelech, "In situ monitoring techniques for concentration polarization and fouling phenomena in membrane filtration", Adv. Colloid Interface Sci., 107, 83 (2004). DOI ScienceOn |
11 | M. G. van der Waal and I. G. Racz, "Mass transfer in corrugated-plate membrane modules. I. Hyperfiltration experiments", J. Membr. Sci., 40, 243 (1989). DOI ScienceOn |
12 | R. van Reis, S. Gadam, L. N. Frautschy, S. Orlando, E. M. Goodrich, S. Saksena, R. Kuriyel, C. M. Simpson, S. Pearl, and A. L. Zydney, "High performance tangential flow filtration", Biotechnol. Bioeng., 56, 71 (1997). DOI ScienceOn |
13 | G. Belfort, R. H. Davis, and A. L. Zydney, "The behavior of suspensions and macromolecular solutions in crossflow microfiltration", J. Membr. Sci., 96, 1 (1994). DOI |
14 | G. B. van den Berg, and C. A. Smolders, "Flux decline in ultrafiltration processes", Desalination, 77, 101 (1990). DOI |
15 | V. L. Vilker, C. K. Colton, and K. A. Smith, "Concentration polarization in protein ultrafiltration. Part II: theoretical and experimental study of albumin ultrafiltered in batch cell", AIChE. J., 27, 637 (1981). DOI ScienceOn |
16 | L. F. Song, "Flux decline in crossflow micro-filtration and ultrafiltration-mechani는 and modeling of membrane fouling", J. Membr. Sci., 139, 183 (1998). DOI ScienceOn |
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