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Effects of the morphology of CIPs on microwave absorption behaviors

Electromagnetic (EM) wave absorption properties are affected by the thickness and surface area of absorbing materials. In this study, a facile ball-milling process was introduced to effectively reduce the diameter and increase the aspect ratio of carbonyl iron powder (CIP), which is one of the most...

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Published in:Electronic materials letters 2017, 13(6), , pp.471-477
Main Authors: Woo, Soobin, Yoo, Chan-Sei, Kim, Hwijun, Lee, Mijung, Quevedo-Lopez, Manuel, Choi, Hyunjoo
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cited_by cdi_FETCH-LOGICAL-c350t-41570f5e3310ec9aa74a3a8e621491f70ad669fe0010120e262358d8c24516f13
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container_title Electronic materials letters
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creator Woo, Soobin
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description Electromagnetic (EM) wave absorption properties are affected by the thickness and surface area of absorbing materials. In this study, a facile ball-milling process was introduced to effectively reduce the diameter and increase the aspect ratio of carbonyl iron powder (CIP), which is one of the most commercially available EM-absorbing materials. The size, aspect ratio, and consequent surface area of CIP were manipulated by controlling the milling parameters to investigate their effects on EM absorption properties. The results indicated that ball-milled CIPs exhibited better EM wave absorption ability when compared with that of pristine CIPs. However, significant differences in minimum reflection loss values were not observed between CIPs with different morphologies and similar specific surface areas. Hence, both fine and flaky CIPs were considered as beneficial for EM wave absorption.
doi_str_mv 10.1007/s13391-017-7002-z
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ispartof Electronic Materials Letters, 2017, 13(6), , pp.471-477
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subjects Aspect ratio
Ball milling
Carbonyl powders
Characterization and Evaluation of Materials
Chemistry and Materials Science
Condensed Matter Physics
Iron
Materials Science
Microwave absorption
Nanotechnology
Nanotechnology and Microengineering
Optical and Electronic Materials
Surface area
Surface chemistry
전자/정보통신공학
title Effects of the morphology of CIPs on microwave absorption behaviors
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