MOFs-Derived Copper Selenides Nanoparticles Implanted in Carbon Matrix for Broadband Electromagnetic Wave Absorption

IF 44 1区医学 Q1 ENDOCRINOLOGY & METABOLISM The Lancet Diabetes & Endocrinology Pub Date : 2024-10-10 DOI:10.1016/j.ceramint.2024.10.129

Shengtao Gao, Chuanlei Zhu, Yuanchun Zhang

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Abstract

Selenide-based functional composites materials demonstrated tunable dielectric properties and heterogeneous interface design, which has been widely studied in electromagnetic (EM) wave absorption field. Herein, Metal-organic frameworks (MOFs) derived carbon coating copper selenide (Cu_2-XSe@C) composites were successfully fabricated by using the Cu-MOFs as precursor. After reacting with the gaseous Se in the selenization annealing process, the metal host was converted into the Cu_2-XSe nanoparticles, where embodied in the carbon matrix transformed from the organic linker. Based on the tunning dielectric property and building heterogeneous interface, MOFs-derived Cu_2-XSe@C composites displayed outstanding EM wave absorption performance. Though the conduction loss, interfacial and dipole polarization behaviors, the minimum reflection loss (RL_min) value of Cu_2-XSe@C-600 composites reached to -74.3 dB at 11.7 GHz when the thickness is 2.0 mm. The efficient absorption bandwidth (EAB) can be regulated via controlling the applied thickness. When the thickness is 2.3 mm, above-mentioned Cu_2-XSe@C-600 got the broadest absorption performance with the EAB of 5.5 GHz from the 7.7 to 13.2 GHz, covering the whole X-band. Therefore, MOFs-derived selenide-based composites shed a new design strategy for constructing broadband EM wave absorption, especially in radar stealth applications.

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在碳基质中植入 MOFs 衍生的硒化铜纳米粒子以实现宽带电磁波吸收

硒化物基功能复合材料具有可调介电性能和异质界面设计，在电磁波吸收领域被广泛研究。本文以 Cu-MOFs 为前驱体，成功制备了金属有机框架（MOFs）衍生的碳包覆硒化铜（Cu2-XSe@C）复合材料。在硒化退火过程中与气态硒反应后，金属宿主被转化为 Cu2-XSe 纳米颗粒，并由有机连接体转化为碳基体。基于调控介电性能和构建异质界面，MOFs 衍生的 Cu2-XSe@C 复合材料显示出卓越的电磁波吸收性能。虽然存在传导损耗、界面和偶极极化行为，但当厚度为 2.0 mm 时，Cu2-XSe@C-600 复合材料在 11.7 GHz 频率下的最小反射损耗（RLmin）值达到了 -74.3 dB。有效吸收带宽（EAB）可通过控制应用厚度来调节。当厚度为 2.3 mm 时，上述 Cu2-XSe@C-600 具有最宽的吸收性能，在 7.7 至 13.2 GHz 范围内的 EAB 为 5.5 GHz，覆盖了整个 X 波段。因此，基于硒化物的 MOFs 衍生复合材料为构建宽带电磁波吸收，尤其是雷达隐身应用提供了一种新的设计策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

The Lancet Diabetes & Endocrinology ENDOCRINOLOGY & METABOLISM-

CiteScore

61.50

自引率

1.60%

发文量

371

期刊介绍： The Lancet Diabetes & Endocrinology, an independent journal with a global perspective and strong clinical focus, features original clinical research, expert reviews, news, and opinion pieces in each monthly issue. Covering topics like diabetes, obesity, nutrition, and more, the journal provides insights into clinical advances and practice-changing research worldwide. It welcomes original research advocating change or shedding light on clinical practice, as well as informative reviews on related topics, especially those with global health importance and relevance to low-income and middle-income countries. The journal publishes various content types, including Articles, Reviews, Comments, Correspondence, Health Policy, and Personal Views, along with Series and Commissions aiming to drive positive change in clinical practice and health policy in diabetes and endocrinology.