Magnetodielectric effects in membranes based on magnetorheological bio-suspensions

Controlled release of bio-active components in systems based on magnetorheological suspensions (MRSs) can be achieved by exploiting the magnetodielectric effects aimed at investigating the time dependence of electrical conductivity in the presence of a magnetic field for similar membranes, and where membranes with stable physical properties in time have been manufactured. Here, magnetorheological bio-suspensions (MRBSs) are prepared using a microfiber cloth soaked with carbonyl iron and various concentrations of honey and turmeric powder. Plane capacitors are manufactured having MRSs as dielectric materials. We build and describe an experimental setup for measuring the electrical resistance and the quality factor of the capacitors in a static magnetic field superimposed on an alternating electric field. The measured quantities are then used to obtain the electrical conductivity and dispersion curves of MRSs-based membranes. The results show that the obtained quantities are sensibly influenced by the electric field frequency, magnetic flux density as well as by the ration between honey and turmeric powder concentrations. (C) 2018 Elsevier Ltd. All rights reserved.