By D.J. Sellmyer, Ralph Skomski
"Advanced Magnetic Nanostructures is dedicated to the fabrication characterization, experimental research, theoretical realizing, and usage of complex magnetic nanostructures. the focal point is on a number of kinds of 'bottom-up' and 'top-down' synthetic nanostructures, as contrasted to obviously taking place magnetic nanostructures reminiscent of iron-oxide inclusions in magnetic rocks, and to buildings akin to ideal skinny films." "Industrial and educational researches in magnetism and similar components reminiscent of nanotechnology, fabrics technology, and theoretical solid-state physics will locate this ebook a worthwhile resource."--Jacket. learn more... creation -- Spin-polarized digital constitution / A. Kashyap, R. Sabirianov, and S.S. Jaswal -- Nanomagnetic types / R. Skomski and J. Zhou -- Nanomagnetic simulations / T. Schrefl ... [et al.] -- Nanoscale structural and magnetic characterization utilizing electron microscopy / D.J. Smith, M.R. McCartney, and R.E. Dunin-Borkowski -- Molecular nanomagnets / W. Wernsdorfer -- Magnetic nanoparticles / M.J. Bonder, Y. Huang, and G.C. Hadjipanayis -- Cluster-assembled nanocomposites / Y.F. Xu, M.L. Yan and D.J. Sellmyer -- Self-assembled nanomagnets / S. solar -- Patterned nanomagnetic movies / J.C. Lodder -- Media for terribly excessive density recording / D. Weller and T. McDaniel -- Hard-magnetic nanostructures / S. Rivoirard and D. Givord -- smooth magnetic nanostructures and purposes / ok. Suzuki and G. Herzer -- Nanostructures for spin electronics / P.P. Freitas ... [et al.] -- Nanobiomagnetics / D.L. Leslie-Pelecky, V. Labhasetwar, and R.H. Kraus, Jr
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Extra info for Advanced magnetic nanostructures
Thus, perovskite-related bcc material CaCu3Ti4O12 (CCTO) has attracted increasing scientific attention since the discovery of its unique relaxation behavior and colossal dielectric constant (CDC) effect [2-3]. In addition to CCTO, CDC effect was also demonstrated in Fe-containing perovskite systems (A(Fe1/2B1/2)O3) [4-6] and doped-NiO . While CDC is desirable for device implementation, a comprehensive understanding of the physics underlying the CDC and related relaxation remains unclear. For the Li and Ti codoped NiO, it was claimed that the polarization relaxation is closely related to the conductivity in grain interior , which allows an alternative approach to understand the dielectric relaxation associated with the CDC effect.
Figure 2. Bending displacements with variation of activation voltage and frequency at room condition. As seen from the Fig. 2, when the excitation voltage is below 7 Vpp, the tip displacement tends to increase linearly along with the excitation voltage. This may be due to the fact that as the voltage increased, the anions moved to positive electrode quickly, resulting in the increased repulsive force between the anions on the positive electrode. Consequently, the bending displacement increased.
On the low DC voltage condition, the cations cannot nearly move to negative electrode, while the anions can move to positive electrode. As the anions move and assemble at anode, the repelling force between the anions (Cl-) makes the film bend to negative electrode. a b c Figure 1. Actuation behavior of cellulose-polyurethane based actuator under DC voltage: (a) cellulose-polyurethane chains, (b) when hydrogen chloride acid was added, and (c) when a DC electric field was applied. AC voltage bending displacement.
Advanced magnetic nanostructures by D.J. Sellmyer, Ralph Skomski