A multifunctional stealthy material for wireless sensing and active camouflage driven by configurable polarization

The dipole species transformation and polarization relaxation configuration are achieved by changing the cobalt ion stoichiometry, which precisely tailors the electromagnetic attenuation performance of bismuth iron cobalt oxide. When the stoichiometric ratio of Fe:Co is 19:1, the optimal reflection loss reaches -60 dB. The high electromagnetic attenuation performance significantly improve the linear sensitivity of the strain response and active customized stealth capability of the designed multifunctional capacitor-like structure. Therefore, the wireless multifunctional design integrates energy attenuaten of electromagnetic wave with the wireless sensing and active camouflage functions for the first time. The work provides an important step for the realization of electromagnetical multifunctional applications including electromag-netic protection and electromagnetic sensing in artificial beings, medical health and even space travel. (c) 2022 Published by Elsevier Ltd on behalf of The editorial office of Journal of Materials Science & Technology.

Automated summary

The study achieved precise control of the electromagnetic performance of bismuth iron cobalt oxide by changing the cobalt ion stoichiometry, improving strain response sensitivity and stealth capability, and integrating wireless sensing with electromagnetic wave attenuation.