bibliography...

Bibliography of Acoustic and Electroacoustic Spectroscopy related to the Dispersion Technology line of instruments

PATENTS

1.  Dukhin, A.S. and Goetz, P.J. “Method and device for characterizing particle size distribution and zeta potential in concentrated system by means of Acoustic and Electroacoustic Spectroscopy”, patent USA, 6,109,098 (2000)

2.  Dukhin, A.S. and Goetz, P.J. “Method and device for Determining Particle Size Distribution and Zeta Potential in Concentrated Dispersions”, patent USA, 6,449,563 (2002)

3. Dukhin, A.S. and Goetz, P.J. “Method for Determining Particle Size Distribution  and Structural Properties of Concentrated Dispersions”, patent  USA, 6,910,367 B1 (2005)

4.   Dukhin, A.S. and Goetz, P.J. “Method for Determining Particle Size Distribution and Mechanical Properties of Soft Particles in Liquids”, patent USA, 6,487,894 B1 (2002)

5.  Dukhin, A.S. and Goetz, P.J. “Method for Determining Electric Properties of Particles in Liquids by means of Combined Electroacoustic and Complex Conductivity Measurement.” patent USA, 6,915,214 B2 (2005)    

6.  Dukhin, A.S., Dukhin, S. and Goetz, P.J. "Method for the Removal of Heavy Metals from Aqueous Solution by means of Silica as an Adsorbent in Counter-Flow Selective Dialysis." patent USA, 6,858,147 B2 (2005) 

BOOKS

1. Dukhin A.S. and Goetz P.J. “Ultrasound for characterizing colloids. Particle sizing, zeta potential, rheology”, Elsevier, (2002) 

REVIEWS and PAPERS  

1.  Dukhin, A. S. Observation of sol-gel transition for carbon nanotubes using electroacoustics: Colloid vibration current versus streaming vibration current. JCIS, vol.310, 1, 270-280 (2007)

2. Dukhin, A.S., Dukhin, S.S. and Goetz, P.J. “Gravity as a factor of aggregative stability and coagulation”, Advances in Colloid and Interface Science, vol. 134 -135, 31, 35-71 (2007)

3. Dukhin, A.S., Fluck, D., Goetz, P.J., Shilov, V.N. and Dukhin, S.S. “Characterization of fractal particles using Acoustics, Electroacoustics, Light Scattering, Image analysis and Conductivity”, Langmuir, 23, 10, pp.5338-5351 (2007)

4. Dukhin, A. S., Goetz, P.J. and Theo G.M. van de Ven, “Ultrasonic characterization of proteins and blood cells”, Colloids and Surfaces B, 52, 121-126 (2006)

5. Dukhin, A.S. and Goetz, P.J. “How non-ionic “electrically neutral” surfactants enhance electrical and ion stability ib non-polar liquids”, Journal of Electroanalytical Chemistry, 588, 44-50 (2006)
6. Dukhin, A.S. and Goetz, P.J. "Evolution of water-in-oil emulsion controlled by droplet-bulk ion exchange: acoustic, electroacoustic, conductivity, and image analysis", Colloids and Surfaces, A, 253, 51-64 (2005)
7. Dukhin, A.S., Dukhin, S.S., and Goetz, P.J. "Electrokinetics at high ionic strength and hypothesis of the Double Layer with Zero Surface Charge",  Langmuir, 21 (22), pp.9990-9997 (2005)
8. Bell, N., Rodriguez, M.A.,  “Dispersion Properties of an Alumina Nanopowder…,” Journal of Nanoscience and Nanotechnology, pp. 283-290, (2004).
9. Bell, N., Cesarano III, J., Voigt, J.A., Lockwood, S.J., Dimos, D.B., “Colloidal processing of chemically prepared zinc oxide varistors. Part I: Milling and dispersion of powder,” J.Mater. Res., Vol. 19, No. 5, May 2004.
10. Shin-ichi Takeda, Hidehiko Suenaga, Isao Tari. “Particle size characterization of highly concentrated barium titanate slurries by ultrasonic attenuation spectroscopy” in “Improved ceramics through new Measurements, Processing, and Standards” Edited by M.Matsui, S.Jahanmir, H.Mostaghci, M.Naito, K.Uematsu, R.Wasche, R.Morrell Published by “The American Ceramics Society”,  Ceramic Transactions, vol.133, pp.53-58 (2002).  
11. Shin-ichi Takeda, Hiroyuki Harano, Isao Tari. “Particle size characterization of highly concentrated alumina slurries by ultrasonic attenuation spectroscopy” in “Improved Ceramics through New Measurements, Processing, and Standards” Edited by M.Matsui, S.Jahanmir, H.Mostaghci, M.Naito, K.Uematsu, R.Wasche, R.Morrell. Published by “The American Ceramics Society”, Ceramic Transactions, vol.133, pp.59-64 (2002).
12. Hackley VA. Patton J. Lum LSH. Wasche RJ. Naito M. Abe H. Hotta Y. Pendse H. “Analysis of the isoelectric point in moderately concentrated alumina suspensions using electroacoustic and streaming potential methods”, Journal of Dispersion Science and Technology. 23(5):601-617, 2002.
13. Kosmulski, M., Maczka, E., Jartych, E. and Rosenholm, J.B. “Synthesis and characterization of goethite and goethite-hematite composite: experimental study and literature survey”, Advances in Colloid and Interface Science, 103, 57-76 (2003)
14. Kosmulski, M., Dukhin, A.S., Priester, T., and Rosenholm J.B. “Multilaboratory study of the shifts in  the IEP of anatase at high ionic strength”, JCIS, 263, 152-155 (2003)
15. Rheinlander, T., Priester, T., Thommes, M. “Novel physicochemical characterization of magnetic fluids”, J. of Magnetism and Magnetic Materials, 256, 252-261 (2003)
16. Dukhin, A.S., Goetz, P.J., Shilov, V.N, Ohshima “Electroacoustics Phenomena in Concentrated Dispersions. Theory, experiment, applications”, Surfactant Sciences Series, 106, Interfacial Electrokinetics and Electrophoresis, 493-519 (2002)
17. Van Tassel, J. and Randall, C.A.  “Surface chemistry and surface charge formation for an alumina powder in ethanol with the addition HCl and KOH”, JCIS 241, 302-316 (2001)
18. Hackley, V.A., Patton, J., Lum, L.S.H., Wasche, R.J., Naito, M., Abe, H., Hotta, Y., and Pendse, H. “Analysis of the isoelectric point in moderately concentrated alumina suspensions using electroacoustic and streaming potential methods”, NIST, Fed.Inst. for Material Research-Germany, JFCC-Japan, University of Main., Report (2001)
19. Dukhin, A.S., Goetz, J.P. “New developments in acoustic and electroacoustic spectroscopy for characterizing concentrated dispersions”, Colloids and Surfaces, A, 192, 267-306 (2001)     
20. Dukhin, A.S. and Goetz, J.P. “Acoustic and electroacoustic spectroscopy for characterizing concentrated dispersions and emulsions”, Advances in Colloid Interface Sci., 92, 73-132 (2001)
21. Dukhin, A.S., Goetz, P.J. and Truesdail, S. “Titration of concentrated dispersions using electroacoustic z-potential probe”, Langmuir, 17, 964-968 (2001)
22. Babick, F., Hinze, F., and Ripperger, S. “Dependence of Ultrasonic Attenuation on the Material Properties”, Colloids and Surfaces, 172, 33-46 (2000)
23. Dukhin, A.S., Goetz, J.P., Wines, T.H. and Somasundaran, P. “Acoustic and electroacoustic Spectroscopy”, Colloids and Surfaces, A, 173, 1-3, pp.127-159, (2000)     
24. Dukhin, A.S., Goetz, P.J.  “Characterization of Concentrated Dispersions with Several Dispersed Phases by means of Acoustic Spectroscopy”, Langmuir, 16, 7597-7604 (2000)
25. Dukhin, A.S., Shilov, V.N, Ohshima, H., Goetz, P.J “Electroacoustics Phenomena in Concentrated Dispersions. New Theory and CVI Experiment”, Langmuir, 15, 20, 6692-6706, (1999)
26. Dukhin, A.S., Shilov, V.N, Ohshima, H., Goetz, P.J “Electroacoustics Phenomena in Concentrated Dispersions. Effect of the Surface Conductivity”, Langmuir, 16, 2615-2620 (2000)
27. Dukhin, A.S. and Goetz, P.J “Characterization of Chemical Polishing Materials (monomodal and bimodal) by means of  Acoustic Spectroscopy “, Colloids and Surfaces, 158, 343-354, (1999).
28. Wines, T.H., Dukhin A.S. and Somasundaran, P. “Acoustic spectroscopy for characterizing heptane/water/AOT reverse microemulsion”, JCIS, 216, 303-308, 1999.
29. Dukhin, A. S., Shilov, V.N. and Borkovskaya Yu. “Dynamic Electrophoretic Mobility in Concentrated Dispersed Systems. Cell Model.”, Langmuir, 15, 10, 3452-3457, 1999.
30. Dukhin, A.S., Ohshima, H., Shilov, V.N. and Goetz, P.J. “Electroacoustics for Concentrated Dispersions”, Langmuir, 15,10 3445-3451, 1999.
31. Ohshima, H. and Dukhin, A.S. “Colloid Vibration Potential in a Concentrated Suspension of Spherical Colloidal Particles”, J.Coll. and Interface Sci., 212, 449-452 1999.
32. Takeda, Shin-ichi, Chen, T. and Somasundaran P. “Evaluation of Particle Size Distribution for Nanosized Particles in Highly Concentrated Suspensions by Ultrasound Attenuation Spectroscopy”, Colloids and Surfaces, 1999
33. Hinze, F., Stintz, M. and Ripperger, S. “Surface characterization of organic colloids by the Colloid Vibration Potential”, in Ultrasonic and Dielectric Characterization Techniques for Suspended Particulates, Ed. V.A. Hackley and J. Texter, Amer. Ceramic Soc., 291-305, (1998)
34. A.S.Dukhin and P.J.Goetz, “Characterization of aggregation phenomena by means of acoustic and electroacoustic spectroscopy”, Colloids and Surfaces, 144, 49-58, 1998.
35. Takeda, Shin-ichi and Goetz. P.J. “Dispersion/Flocculated Size Characterization of Alumina Particles in Highly Concentrated Slurries by Ultrasound Attenuation Spectroscopy”, Colloids and Surfaces, 143, 35-39, 1998.
36. Stintz, M., Hinze, F. and Ripperger, S. “Particle size characterization of inorganic colloids by ultrasonic attenuation spectroscopy”, in Ultrasonic and Dielectric Characterization Techniques for Suspended Particulates, Ed. V.A. Hackley and J. Texter, Amer. Ceramic Soc., 219-229, (1998)
37. Takeda, Shin-ichi, “Characterization of Ceramic Slurries by Ultrasonic Attenuation Spectroscopy”, Ultrasonic and Dielectric Characterization Techniques for Suspended Particulates, Edited by V.A. Hackley and J. Texter, American Ceramic Society, Westerville, OH, 1998.
38. Dukhin A.S. and Goetz P. “Acoustic and Electroacoustic Spectroscopy”, Ultrasonic and Dielectric Characterization Techniques for Suspended Particulates, Edited by V.A. Hackley and J. Texter, American Ceramic Society, Westerville, pp.77-95, OH, 1998.
39. Dukhin, A.S. , Goetz, P.J and Hackley, V., "Modified Log-Normal Particle Size Distribution in Acoustic Spectroscopy", Colloids and Surfaces, 138, 1-9 (1998).
40. A.S.Dukhin and P.J.Goetz, “Acoustic Spectroscopy for Concentrated Polydisperse Colloids with High Density Contrast”, Langmuir, 12 [21] 4987-4997, 1996.
41. A.S.Dukhin and P.J.Goetz, “Acoustic and Electroacoustic Spectroscopy”, Langmuir, 12, 19, 4336-4344, 1996.
42. A.S.Dukhin, P.J.Goetz. and C.W.Hamlet, “Acoustic Spectroscopy for Concentrated Polydisperse Colloids with Low Density Contrast”, Langmuir, 12 [21] 4998-5004, 1996.