2017
DOI: 10.1016/j.jallcom.2016.10.124
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Interface transformation for enhanced microwave-absorption properties of core double-shell nanocomposites

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Cited by 27 publications
(7 citation statements)
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“…It would thus consume a large amount of microwave energy. On the other hand, the interfaces between Ni particles and ZnO can cause charge accumulation and interface polarization, 69,70 which is favorable for the enhancement of microwave absorption.…”
Section: Resultsmentioning
confidence: 99%
“…It would thus consume a large amount of microwave energy. On the other hand, the interfaces between Ni particles and ZnO can cause charge accumulation and interface polarization, 69,70 which is favorable for the enhancement of microwave absorption.…”
Section: Resultsmentioning
confidence: 99%
“…In order to solve this problem, a novel strategy to construct a core@double shell structure combined of two shells with different characteristics has been developed to obtain high-performance materials with multifunctional integration. A novel pore core@double shell nanostructure of a P25@carbon network-supported few-layer MoS 2 nanosheet (P25@C@FL-MoS 2 ) with a strong interfacial contact has been successfully synthesized to achieve superior cycling and rate capacity . Core@double shell CaCO 3 @polystyrene@polymethyl methacrylate (CaCO 3 @PS@PMMA) hybrid nanostructures endow the multifunctional properties in a single hybrid system and can be suggested as a movable filler, impact modifier, and lubricating agent for the polymer hybrid blend system .…”
Section: Introductionmentioning
confidence: 99%
“…From the analysis of figure 8, the mechanism of highest attenuation of Ni 2.5 can be interpreted by the following: (i) the conductive loss of Ni is an effective pathway to attenuate EM wave, and as a result the conductive network can transform the EM wave into electricity, which is then thermally radiated; (ii) the interfacial polarization occurs between Ni and Ni 3 S 2 nanowires, and accumulated charges are generated between the two phases under the action of an alternating electric field, leading to dielectric loss due to polarization relaxation; (iii) the magnetic composition of the composite material causes the magnetic loss without destroying the conductive network structure of the material [49][50][51][52].…”
Section: Magnetic Propertiesmentioning
confidence: 99%