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Constructing Multiphase‐Induced Interfacial Polarization to Surpass Defect‐Induced Polarization in Multielement Sulfide Absorbers
by
Zhang, Limin
, Zhou, Xu
, Hui, Shengchong
, Wu, Hongjing
in
Crystal structure
/ electromagnetic wave absorption
/ Engineering
/ Entropy
/ high‐entropy materials
/ Interfaces
/ interfacial polarization
/ Morphology
/ multiphase interfacial engineering
/ Solid solutions
2024
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Constructing Multiphase‐Induced Interfacial Polarization to Surpass Defect‐Induced Polarization in Multielement Sulfide Absorbers
by
Zhang, Limin
, Zhou, Xu
, Hui, Shengchong
, Wu, Hongjing
in
Crystal structure
/ electromagnetic wave absorption
/ Engineering
/ Entropy
/ high‐entropy materials
/ Interfaces
/ interfacial polarization
/ Morphology
/ multiphase interfacial engineering
/ Solid solutions
2024
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Do you wish to request the book?
Constructing Multiphase‐Induced Interfacial Polarization to Surpass Defect‐Induced Polarization in Multielement Sulfide Absorbers
by
Zhang, Limin
, Zhou, Xu
, Hui, Shengchong
, Wu, Hongjing
in
Crystal structure
/ electromagnetic wave absorption
/ Engineering
/ Entropy
/ high‐entropy materials
/ Interfaces
/ interfacial polarization
/ Morphology
/ multiphase interfacial engineering
/ Solid solutions
2024
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Constructing Multiphase‐Induced Interfacial Polarization to Surpass Defect‐Induced Polarization in Multielement Sulfide Absorbers
Journal Article
Constructing Multiphase‐Induced Interfacial Polarization to Surpass Defect‐Induced Polarization in Multielement Sulfide Absorbers
2024
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Overview
The extremely weak heterointerface construction of high‐entropy materials (HEM) hinders them being the electromagnetic wave (EMW) absorbers with ideal properties. To address this issue, this study proposes multiphase interfacial engineering and results in a multiphase‐induced interfacial polarization loss in multielement sulfides. Through the selection of atoms with diverse reaction activities, the multiphase interfacial components of CuS (1 0 5), Fe0.5Ni0.5S2 (2 1 0), and CuFe2S3 (2 0 0) are constructed to enhance the interfacial polarization loss in multielement Cu‐based sulfides. Compared with single‐phase high‐entropy Zn‐based sulfides (ZnFeCoNiCr‐S), the multiphase Cu‐based sulfides (CuFeCoNiCr‐S) possess optimized EMW absorption properties (effective absorption bandwidth (EAB) of 6.70 GHz at 2.00 mm) due to the existence of specific interface of CuS (1 0 5)/CuFe2S3 (2 0 0) with proper EM parameters. Furthermore, single‐phase ZnFeCoNiCr‐S into FeNi2S4 (3 1 1)/(Zn, Fe)S (1 1 1) heterointerface through 400 °C heat‐treated is decomposed. The EMW absorption properties are enhanced by strong interfacial polarization (EAB of 4.83 GHz at 1.45 mm). This work reveals the reasons for the limited EMW absorption properties of high‐entropy sulfides and proposes multiphase interface engineering to improve charge accumulation and polarization between specific interfaces, leading to the enhanced EMW absorption properties. This work shows that the weak electron exchange effect induced by high conformational entropy adversely affects microwave absorption. Constructing the heterointerfaces with significantly different work functions in multi‐element sulfides can effectively enhance the phase interface polarization and eliminate these negative effects. This is expected to serve as a new design guideline for microwave absorbers.
Publisher
John Wiley & Sons, Inc,Wiley
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