Electrorheological Bibliography
1. Adolf, D. and Garino, T. Time-dependent dielectric response of quiescent electrorheological flluids. Langmuir 11:307-312, 1995.
2. Adriani, P.M. and Gast, A.P. A microscopic model of electrorheology. Phys.Fluids 31:2757-2768, 1988.
3. Adriani, P.M. and Gast, A.P. Electric-field-induced aggregation in dilute colloidal suspensions. Faraday Discuss.Chem.Soc. 90:17-29 (disc. 57-62), 1990.
4. Anderson, R.A. Electrostatic forces in an ideal spherical-particle electrorheological fluid. Langmuir 10:2917-2928, 1994.
5. Block, H., Goodwin, K.M.W., Gregson, E.M., and Walker, S.M. Stimulated resonance between electrical and shear fields by a colloid system. Nature 275:632-634, 1978.
6. Block, H. and Kelly, J.P. Electro-rheology. J.Phys.D 21:1661-1677, 1988.
7. Block, H., Kelly, J.P., Qin, A., and Watson, T. Materials and Mechanisms in Electrorheology. Langmuir 6:6-14, 1990.
8. Block, H., Kluk, E., McConnell, J., and Scaife, B.K.P. Polarization in rotating dielectrics. J.Colloid Interface Sci. 101:320-329, 1984.
9. Block, H. and Rattray, P. Recent developments of ER fluids. In: Progress in Electrorheology, edited by Havelka, K.O. and Filisko, F.E.Plenum Press, 1995,p. 19-42.
10. Bonnecaze, R.T. and Brady, J.F. Dynamic simulation of an electrorheological fluid. J.Chem.Phys. 96:2183-2202, 1992.
11. Chen, T., Zitter, R.N., and Tao, R. Laser diffraction determination of the crystalline structure of an electrorheological fluid. Phys.Rev.Lett. 68:2555-2558, 1992.
12. DeLacey, E.H.B. and White, L.R. Dielectric response and conductivity of dilute suspensions of colloidal particles. J.Chem.Soc.Faraday Trans.2 77:2007-2039, 1981.
13. DeLacey, E.H.B. and White, L.R. Dielectric response and conductivity of dilute suspensions of colloidal particles. J.Chem.Soc.Faraday Trans.2 77:2007-2039, 1981.
14. Filisko, F.E. Overview of ER technology. In: Progress in Electrorheology, edited by Havelka, K.O. and Filisko, F.E.Plenum Press, 1995,p. 3-18.
15. Garrouch, A.A., Lababidi, H.M.S., and Gharbi, R.B. Dielectric dispersion of dilute suspensions of colloid particles: Practical applications. J.Phys.Chem. 100:16996-17003, 1996.
16. Gast, A.P. and Zukoski, C.F. Electrorheological fluids as colloidal suspensions. Adv.Colloid Interface Sci. 30:153-202, 1989.
17. Halsey, T.C. Electrorheological fluids. Science 258:761-766, 1992.
18. Hemp, J. Theory of dilute electro-rheological fluids. Proc.R.Soc.Lond.A 434:297-315, 1994.
19. Holzapfel, C., Vienken, J., and Zimmermann, U. Rotation of cells in an alternating electric field: Theory and experimental proof. J.Membrane Biol. 67:13-26, 1982.
20. Hu, Y. Effects of an inner Helmholtz layer on the dielectric dispersion of colloidal suspensions. Langmuir 14:271-276, 1998.
21. Hu, Y. and Chen, M.W. Computer simulation of polarization of mobile charges on the surface of a dielectric sphere in transient electric fields. J.Electrostatics 43:19-38, 1998.
22. Isherwood, R., Jennings, B.R., and Stankiewicz, M. Electrically induced concentration banding in particulate sols and emulsions. Chem.Eng.Sci. 42:913-914, 1987.
23. Jennings, B.R. and Stankiewicz, M. Electro-optic observations of electrodynamic band formation in colloidal suspensions. Proc.R.Soc.Lond.A 427:321-330, 1990.
24. Jones, T.B. and Miller, R.D. Multipolar interactions of dielectric spheres. J.Electrostatics 22:231-244, 1989.
25. Jordan, P.C. Association phenomena in a ferromagnetic colloid. Mol.Phys. 25:961-973, 1973.
26. Kijlstra, J., van Leeuwen, H.P., and Lyklema, J. Low-frequency dielectric relaxation of hematite and silica sols. Langmuir 9:1625-1633, 1993.
27. Klingenberg, D.J., van Swol, F., and Zukoski, C.F. Dynamic simulation of electrorheological suspensions. J.Chem.Phys. 91:7888-7895, 1989.
28. Klingenberg, D.J., van Swol, F., and Zukoski, C.F. The small shear rate response of electrorheological suspensions. I. Simulation in the point-dipole limit. J.Chem.Phys. 94:6160-6169, 1991.
29. Klingenberg, D.J. and Zukoski, C.F. Studies on the steady-shear behavior of electrorheological suspensions. Langmuir 6:15-24, 1990.
30. Lemaire, E., Grasselli, Y., and Bossis, G. Field induced structure in magneto and electro-rheological fluids. J.Phys.II France 2:359-369, 1992.
31. Lim, K.-H. and Franses, E.I. Electrical properties of aqueous dispersions of polymer microspheres. J.Colloid Interface Sci. 110:201-213, 1986.
32. Lyklema, J., Dukhin, S.S., and Shilov, V.N. The relaxation of the double layer around colloidal particles and the low-frequency dielectric dispersion. Part 1. Theoretical considerations. J.Electroanal.Chem. 143:1-21, 1983.
33. Lyklema, J., Springer, M.M., Shilov, V.N., and Dukhin, S.S. The relaxation of the double layer around colloidal particles and the low-frequency dielectric dispersion. Part III. Application of theory to experiments. J.Electroanal.Chem. 198:19-26, 1986.
34. Marshall, L., Zukoski, C.F., and Goodwin, J.W. Effects of electric fields on the rheology of non-aqueous concentrated suspensions. J.Chem.Soc.Faraday Trans.1 85:2785-2795, 1989.
35. Martin, J.E. and Anderson, R.A. Chain model of electrorheology. J.Chem.Phys. 104:4814-4827, 1996.
36. Martin, J.E., Anderson, R.A., and Tigges, C.P. Simulation of the athermal coarsening of composites structured by a uniaxial field. J.Chem.Phys. 108:3765-3787, 1998.
37. Martin, J.E., Odinek, J., Halsey, T.C., and Kamien, R. Structure and dynamics of electrorheological fluids. Phys.Rev.E 57:756-775, 1998.
38. Melrose, J.R. Sheared dipolar suspensions. Phys.Rev.A 44:R4789-R4792, 1991.
39. Melrose, J.R. Brownian dynamics simulation of dipole suspensions under shear: the phase diagram. Mol.Phys. 76:635-660, 1992.
40. Melrose, J.R. and Heyes, D.M. Simulations of electrorheological and particle mixture suspensions: Agglomerate and layer structures. J.Chem.Phys. 98:5873-5886, 1993.
41. Myers, D.F. and Saville, D.A. Dielectric spectroscopy of colloidal suspensions. II. Comparisons between experiment and theory. J.Colloid Interface Sci. 131:461-470, 1989.
42. Ottewill, R.H., Rennie, A.R., and Schofield, A. The effect of electric fields on nonaqueous dispersions. Progr Colloid Polym Sci 81:1-5, 1990.
43. Parthasarathy, M. and Klingenberg, D.J. Electrorheology: mechanisms and models. Materials Sci.Eng. R17:57-103, 1996.
44. Rosen, L.A., Baygents, J.C., and Saville, D.A. The interpretation of dielectric response measurements on colloidal dispersions using the dynamic Stern layer model. J.Chem.Phys. 98:4183-4194, 1993.
45. Rosen, L.A. and Saville, D.A. Dielectric spectroscopy of colloidal dispersions: Comparisons between experiment and theory. Langmuir 7:36-42, 1991.
46. Rosen, L.A. and Saville, D.A. The electrokinetic response of surface-modified polymer latexes: Effects of grafted water-soluble polymer and heat treatment. J.Colloid Interface Sci. 149:542-552, 1992.
47. Saville, D.A. Dielectric behavior of colloidal dispersions. Colloids and Surfaces 92:29-40, 1994.
48. Sun, J.M. and Tao, R. Shear flow of a one-component polarizable fluid in a strong electric field. Phys.Rev.E 53:3732-3737, 1996.
49. Takashima, S. and Schwan, H.P. Alginment of microscopic particles in electric fields and its biological implications. Biophys.J. 47:513-518, 1985.
50. Tam, W.Y., Yi, G.H., Wen, W., Ma, H., Loy, M.M.T., and Sheng, P. New electrorheological fluid: Theory and experiment. Phys.Rev.Lett. 78:2987-2990, 1997.
51. Tao, R. and Sun, J.M. Three-dimensional structure of induced electrorheological solid. Phys.Rev.Lett. 67:398-401, 1991.
52. Van Der Hoeven, P.C. and Lyklema, J. Electrostatic stabilization in non-aqueous media. Adv.Colloid Interface Sci. 42:205-277, 1992.
53. Vorob'eva, T.A., Vlodavets, I.N., and Zubov, P.I. The size distribution of oriented aggregates formed in suspension with the application of an alternating electric field. Colloid Journal of the USSR 31:533-537, 1969.
54. Wen, W. and Lu, K. Frequency dependence of metal-particle/insulating oil electrorheological fluids. Appl.Phys.Lett. 67:2147-2148, 1995.
55. Wong, W. and Shaw, M.T. The role of water in electrorheological fluids. In: ,Anonymous 1998,