Synthesis and characterization of low-loss Fe₃O₄-PDMS magneto-dielectric polymer nanocomposites for RF applications

“…The values of ε r , tan δ e , µ r , and tan δ m are provided in Table 1. By comparing the data in Table 1, the values of the permittivity and permeability of the four samples measured by the proposed sensor can be seen basically in agreement with the nominal values given in [13,14], and the accuracy is high.…”

Design of a Microstrip Sensor Based on a CSRR-Derived Structure for Measuring the Permittivity and Permeability of Materials

“…The values of ε r , tan δ e , µ r , and tan δ m are provided in Table 1. By comparing the data in Table 1, the values of the permittivity and permeability of the four samples measured by the proposed sensor can be seen basically in agreement with the nominal values given in [13,14], and the accuracy is high.…”

Design of a Microstrip Sensor Based on a CSRR-Derived Structure for Measuring the Permittivity and Permeability of Materials

“…Researchers are currently examining ways to synthesize such materials with the goal to achieve low-loss materials with relative permittivity and permeability in the 3-10 range at microwave frequencies [23]. Thus, the adopted design was tuned using a genetic algorithm (GA) with the goal to produce a surrogate material with both a permittivity and a permeability as near to six as possible across S-band, as found using NRW.…”

A Waveguide Verification Standard Design Procedure for the Microwave Characterization of Magnetic Materials

“…The activity of inorganic phosphatases can be inhibited by some small organic molecules, e.g., citrate acid, due to the iron complex formation [26,88]. The interaction of organic matter and iron oxide nanoparticles is very complex [140][141][142], the catalytic capacity, on the other hand, can also be enhanced when metal oxide nanoparticles surface modified with some especially organic ligand, e.g., glutathione, dendrimer, DNA, and protein, based on the progress of nanozyme and metal-organic frameworks from the view of bioengineering [143][144][145][146][147].…”

“…A article by Claudio et al [166] focused on the importance of iron oxide nanoparticles in the soil, especially related to soil fertility, plant nutrition, and the interaction of phosphorus, sulfate, molybdate, and pollutants (arsenic or chromium) from the traditional view of soil chemistry with the title " Iron Oxide Nanoparticles in Soils: Environmental and Agronomic Importance". While Vindedahl et al [141], under the title " Organic matter and iron oxide nanoparticles: Aggregation, interactions, and reactivity", addressed the chemistry of iron oxide nanoparticles in aqueous environments, e.g., the effect of pH, organic matter sorp tion, and solid-state transformations. Both can help readers understand the fate, transport, and chemical behavior of nanoparticles in complex environments.…”

“…One such method for controlling the performance of RF microwave devices is employing tunable magnetic materials such as Fe 3 O 4 nanoparticles nanocomposite as the base substrates. Morales et al in 2011 and 2014 reported implementation of magnetite (Fe 3 O 4 ) nanoparticles and -polydimethylsiloxane (PDMS) magnetodielectric composite for RF and microwave applications [140,141]. In this work, sub-10 nm Fe 3 O 4 nanoparticles have been synthesized using thermal decomposition method.…”

Iron Oxide Nanoparticles