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V.B. Aleskovskii, V.G. Korsakov (1980)
Fiziko-khimicheskie osnovy ratsional’nogo vybora aktivnykh materialov
V.G. Korsakov, I.K. Yartsev, A.A. Razin (1989)
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E. Flood (1967)
The solid-gas interface,
M. Todd, F. Shi (2003)
Characterizing the interphase dielectric constant of polymer composite materials: Effect of chemical coupling agentsJournal of Applied Physics, 94
M. Sychov, S. Mjakin, Y. Nakanishi, V. Korsakov, I. Vasiljeva, V. Bakhmetjev, O. Solovjeva, É. Komarov (2005)
Study of active surface centers in electroluminescent ZnS:Cu,Cl phosphorsApplied Surface Science, 244
I. Perelygin, S. Tuchkov, L. Lanshina (2002)
Vibrational and orientation relaxations and pair angular correlations of molecules in liquid chlorobenzeneRussian Journal of Physical Chemistry A, 76
A linear correlation between the permittivity of a composite dielectric based on polyvinyl alcohol cyanate and the content of active surface sites in its filler (dispersed barium titanate) was established. This correlation, in combination with a thermodynamic model of composite dielectrics, allows estimation of their permittivity from the surface characteristics of the filler.
Russian Journal of Applied Chemistry – Springer Journals
Published: Dec 27, 2007
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