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Open Access

Tunable lateral size and hierarchical structure SiP2@Ni low-dimensional aggregates for enhanced electromagnetic wave absorption

Yukai Changa,b,1( )Yihao Xua,1Huilan Zhaoa,1Yingjie Huoc( )Zhikai YanbPenghui Lid( )Shangsheng LiaMeihua HuaLibo WangaQianku HuaAiguo ZhouaRenchao Cheb ( )
School of Materials Science and Engineering, Henan Polytechnic University, Jiaozuo, 454003, Henan, China
Laboratory of Advanced Materials, Shanghai Key Lab of Molecular Catalysis and Innovative Materials, Sate Key Laboratory of Coatings for Advanced Equipment, College of Smart Materials and Future Energy, Fudan University, Shanghai, 200438, China
School of Physical Science and Technology, Tangshan Normal University, Tangshan, 063000, Hebei, China
Center for High Pressure Science (CHiPS), State Key Laboratory of Metastable Materials Science and Technology, Yanshan University, Qinhuangdao, 066004, Hebei, China

1 These authors contributed equally to this work.

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Abstract

Simplifying the technology for regulating dielectric properties and enriching electromagnetic loss mechanisms of layered electromagnetic wave (EMW) absorption materials still faces challenges. Herein, we propose a simple and eco-friendly sieving strategy to control the lateral size (3–50 μm) of multilayered SiP2 flakes for regulating dielectric constants. Moreover, hierarchical-structured 2D SiP2@0D Ni nanoparticles/1D Ni chains low-dimensional aggregates are in-situ constructed on SiP2 flakes via a two-step hydrothermal method to enhance interfacial polarization and electromagnetic synergistic effects. When the lateral size was controlled at 11 μm (SiP2-300), the intrinsic SiP2 exhibits strong reflection loss (RL) value of −38.9 dB at 1.7 mm. Notably, the construction of 2D/0D/1D SiP2@Ni not only maintains a strong RL of −40.1 dB, but also shifts the corresponding absorption frequency from original Ku-band (11.8 GHz) to C-band (7.2 GHz). More importantly, the effective absorption bandwidth is broadened from 2.9 GHz to 4.1 GHz benefiting from the construction of electromagnetic synergy networks. Additionally, the radar cross section (RCS) value (29.14 dB⸱m2) evaluated by the computer simulation technology (CST) results for SiP2@Ni–S2 confirm the excellent dissipation ability. This study provides a new strategy for the application of layered absorbers with low-frequency, broadband and adjustable EMW properties.

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Cite this article:
Chang Y, Xu Y, Zhao H, et al. Tunable lateral size and hierarchical structure SiP2@Ni low-dimensional aggregates for enhanced electromagnetic wave absorption. Journal of Materiomics, 2026, 12(4). https://doi.org/10.1016/j.jmat.2026.101213

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Received: 15 October 2025
Revised: 13 December 2025
Accepted: 04 January 2026
Published: 20 March 2026
© 2026 The Authors.

This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).