Acta Optica Sinica, Volume. 37, Issue 2, 229001(2017)
Zeta Potential Measurement Method of Electrophoretic Light Scattering Based on Chirp Z-Transform
[1] [1] Paz-Garcia J M, Johannesson B, Ottosen L M, et al. Modeling of electric double-layers including chemical reaction effects[J]. Electrochimica Acta, 2014, 150: 263-268.
[2] [2] Xu R. Progress in nanoparticles characterization: Sizing and zeta-potential measurement[J]. Particuology, 2008, 6(2): 112-115.
[3] [3] Bowen W R, Clark R A. Electro-osmosis at microporous membranes and the determination of zeta-potential[J]. Journal of Colloid & Interface Science, 1984, 97(2): 401-409.
[4] [4] Peeters J M M, Mulder M H V, Strathmann H. Streaming potential measurements as a characterization method for nanofiltration membranes[J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 1999, 150(1-3): 247-259.
[5] [5] Henry D C. The cataphoresis of suspended particles. Part I. The equation of cataphoresis[J]. Proceedings of the Royal Society of London, 1931, 133(821): 106-129.
[6] [6] Sennett P, Olivier J P. Colloidal dispersions, electrokinetic effects, and the concept of zeta potential[J]. Industrial & Engineering Chemistry, 1965, 57(8): 32-50.
[7] [7] Ware B R, Flygare W H. The simultaneous measurement of the electrophoretic mobility and diffusion coefficient in bovine serum albumin solutions by light scattering[J]. Chemical Physics Letters, 1971, 12(1): 81-85.
[8] [8] Ware B R, Flygare W H. Light scattering in mixtures of BSA, BSA dimers, and fibrinogen under the influence of electric fields[J]. Journal of Colloid and Interface Science, 1972, 39(3): 670-675.
[9] [9] Uzgiris E E. Laser Doppler spectrometer for study of electrokinetic phenomena[J]. Review of Scientific Instruments, 1974, 45(1): 74-80.
[10] [10] Xu R, Wu C, Xu H. Particle size and zeta potential of carbon black in liquid media[J]. Carbon, 2007, 45(14): 2806-2809.
[11] [11] Xu R. Methods to resolve mobility from electrophoretic laser light scattering measurement[J]. Langmuir, 1993, 9(11): 2955-2962.
[12] [12] Martín-Molina A, Quesada-Pérez M, Galisteo-González F, et al. Looking into overcharging in model colloids through electrophoresis: Asymmetric electrolytes[J]. Journal of Chemical Physics, 2003, 118(19): 4183-4189.
[13] [13] Smoluchowski M V. Versuch einer mathematischen theorie der koagulationskinetikkolloider lsungen[J]. Zeitschrift Für Physikalische Chemie, 1918, 92: 129-168.
[14] [14] Johnson C S Jr, Gabriel D A. Laser light scattering[M]. Dover Publications, Dover, 1995.
[15] [15] Macpherson P C, Meldrum S J, Tunstall-Pedoe D S. A real-time spectrum analyser for ultrasonic Doppler signals, using a chirp-z-transform technique[J]. Journal of Medical Engineering & Technology, 1980, 4(1): 24-26.
[17] [17] Liu Wei, Wang Yajing, Chen Wengang, et al. Evaluation criteria of inversion algorithm for dynamic light scattering[J]. Acta Optica Sinica, 2015, 35(s1): s129001.
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[in Chinese], [in Chinese], John C Thomas. Zeta Potential Measurement Method of Electrophoretic Light Scattering Based on Chirp Z-Transform[J]. Acta Optica Sinica, 2017, 37(2): 229001
Category: Scattering
Received: Jul. 12, 2016
Accepted: --
Published Online: Feb. 13, 2017
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