Enhanced microwave dissipation features of BiFe0.8Co0.1Mn0.1O3/MWCNTs composite decorate of polythiophene

•Composites of BiFeO3, MWCNTs, and polythiophene were successfully prepared.•Composite with 20 wt% of MWCNTs (named as P@20 MW/BF) has best RL of −19 dB.•Balance of mangetic and dielectric losses enhanced microwave absorption properties.•P@MW/BF composites are potential microwave absorbers for f = 1...

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Bibliographic Details
Published inJournal of magnetism and magnetic materials Vol. 545; p. 168724
Main Authors Alamri, Sagr, Rajhi, Ali A., Anqi, Ali E., Tran, Ngo
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.03.2022
Elsevier BV
Subjects
Composite
Composite materials
Conducting polymers
Dielectric loss
Doped BiFeO3
Electromagnetic properties
Magnetic materials
Magnetic properties
Microwave absorbers
Microwave absorption
Multi wall carbon nanotubes
MWCNTs
Polythiophene
X ray photoelectron spectroscopy
MWCNTs
Microwave absorption
Composite
Polythiophene
Doped BiFeO3
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Summary:•Composites of BiFeO3, MWCNTs, and polythiophene were successfully prepared.•Composite with 20 wt% of MWCNTs (named as P@20 MW/BF) has best RL of −19 dB.•Balance of mangetic and dielectric losses enhanced microwave absorption properties.•P@MW/BF composites are potential microwave absorbers for f = 12.4–18 GHz. No magnetic loss during the absorption process is a lack of conductive polymers, while not lightweight is a drawback of magnetic materials to be potential microwave absorbers. A hybrid of magnetic material and conductive polymer is a good resolution for above issues. In this work, composites of BiFe0.8Co0.1Mn0.1O3 (BF) and multi-walled carbon nanotubes (MWCNTs, named as MW) were prepared by a hydrothermal method. Then, the in-situ polymerization method was used to decorate polythiophene on the MW/BF composites. The formation of polythiophene@MW/BF composites and their magnetic, electromagnetic properties were investigated using XRD, XPS, FE-SEM, EDS, and VNA. The composite with MW and polythiophene significantly tuned the microwave dissipation features of the polythiophene@MW/BF composites. In the measurement range of 12.4–18 GHz, the results revealed that the composite with 20 percent of MW (named as P@20 MW/BF) has a minimum reflection loss of −19 dB at frequency f = 13 GHz for a thickness of 2 mm. The maximum effective absorption bandwidth was also found for the P@20 MW/BF composite as 2.6 GHz. Enhancement in microwave absorption performance arises from the balance between magnetic loss and dielectric loss. Overall, the introduction of three-layer polythiophene/MW/BF composites provides potential microwave absorbers for application in the range of 12.4–18 GHz.
ISSN:0304-8853
1873-4766
DOI:10.1016/j.jmmm.2021.168724