Journal of Inorganic Materials, Volume. 39, Issue 1, 71(2024)
[1] C L WANG. Harm of electromagnetic radiation pollution and its protection measures. Construction & Design for Engineering, 4: 131(2017).
[5] S SONG, A ZHANG, L CHEN et al. A novel multi-cavity structured MOF derivative/porous graphene hybrid for high performance microwave absorption. Carbon, 176: 279(2021).
[6] Z ZOU, M NING, Z LEI et al. 0D/1D/2D architectural Co@C/MXene composite for boosting microwave attenuation performance in 2-18 GHz. Carbon(2022).
[12] B X MAO, X S XIA, R R QIN et al. Microstructure evolution and microwave absorbing properties of novel double-layered SiC reinforced SiO2aerogel. Journal of Alloys and Compounds, 936: 168314(2023).
[13] N L BURHANNUDDIN, N A NORDIN, S A MAZLAN et al. Physicochemical characterization and rheological properties of magnetic elastomers containing different shapes of corroded carbonyl iron particles. Scientific Reports, 11: 868(2021).
[14] M Y HAN, M ZHOU, Y WU et al. Constructing angular conical FeSiAl/SiO2 composites with corrosion resistance for ultra-broadband microwave absorption. Journal of Alloys and Compounds, 902: 163792(2022).
[15] D JIN, Y G DU, X L YANG et al. Facile synthesis of Ti3C2T
[16] T MA, Y CUI, Y L SHA et al. Facile synthesis of hierarchically porous rGO/MnZn ferrite composites for enhanced microwave absorption performance. Synthetic Metals, 265: 116407(2020).
[17] D D MIN, W C ZHOU, F LUO et al. Facile preparation and enhanced microwave absorption properties of flake carbonyl iron/ Fe3O4 composite. Journal of Magnetism and Magnetic Materials, 435: 26(2017).
[18] L CHEN, Z Z GU, M X ZHANG. Microwave absorbing property of thin coating in the broadband low-frequency range. Materials Science Forum, 916: 33(2018).
[19] S W LIU, C Z YUAN, K M MA et al. Preparation and low- frequency microwave-absorbing properties of MWCNTs/Co-Ni/ Fe3O4 hybrid material. Functional Materials Letters, 9: 1650035(2016).
[21] W LI, C LE, J LV et al. Electromagnetic and oxidation resistance properties of core-shell structure flaked carbonyl iron powder@SiO2 nanocomposite. Physica Status Solidi(a), 1600747(2017).
[22] P SONG, B LIU, H QIU et al. MXenes for polymer matrix electromagnetic interference shielding composites: a review. Composites Communications, 24: 100653(2021).
[25] O ACHER, S DUBOURG. Generalization of Snoek's law to ferromagnetic films and composites. Physical Review B, 77: 104440(2008).
[27] J W OH, Y W YOON, J HEO et al. Electrochemical detection of nanomolar dopamine in the presence of neurophysiological concentration of ascorbic acid and uric acid using charge-coated carbon nanotubes via facile and green preparation. Talanta, 147: 453(2016).
[28] P YIN, L ZHANG, Y TANG et al. Earthworm-like (Co/CoO)@C composite derived from MOF for solving the problem of low- frequency microwave radiation. Journal of Alloys and Compounds, 881: 160556(2021).
[29] L LAN, Y P ZHENG, A B ZHANG et al. Study of ionic solvent- free carbon nanotube nanofluids and its composites with epoxy matrix. Journal of Nanoparticle Research, 14: 735(2012).
[31] F WANG, X LI, Z CHEN et al. Efficient low-frequency microwave absorption and solar evaporation properties of
[34] H PENG, X MA, C LIU et al. Facile fabrication of indium tin oxide/nanoporous carbon composites with excellent low-frequency microwave absorption. Journal of Alloys and Compounds, 889: 161636(2021).
[35] Z MA, Y ZHANG, C CAO et al. Attractive microwave absorption and the impedance match effect in zinc oxide and carbonyl iron composite. Physica B-Condensed Matter, 406: 4620(2011).
Get Citation
Copy Citation Text
Haiyan CHEN, Zhipeng TANG, Liangjun YIN, Linbo ZHANG, Xin XU.
Category:
Received: Jul. 24, 2023
Accepted: --
Published Online: Mar. 28, 2024
The Author Email: YIN Liangjun (ylj@mail.ustc.edu.cn), ZHANG Linbo (zhanglinbo0806@uestc.edu.cn)