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Conductive Bimetal–Organic Frameworks with Volcano-Type Fine-Tuned Dielectric Properties for Electromagnetic Wave Absorption

Xue Zhang, Jing Qiao, Na Wu, Gongming Xin, Shengying Yue, Xinyu Ma, Fei Pan, Zhihui Zeng, Jiurong Liu

2025ACS Nano57 citationsDOI

Abstract

Inherently conductive metal-organic frameworks (cMOFs) deliver significant potential for tailoring charge transport characteristics in functional applications. Herein, we synthesize a bimetallic NiCu-HHTP cMOF with precisely controllable interlayer spacing, enabling fine-tuning of the charge transport, electronic band structure, and dielectric properties. By exploiting differences in self-polarization effects between active ions, NiCu-HHTP exhibits an inverted volcano-type interlayer spacing variation through controlled modulation of ion proportions and produces volcano-type tunable dielectric properties. At an optimal Ni/Cu ratio, the bimetallic cMOFs demonstrate an optimal dielectric performance, which enables synergy between an efficient attenuation coefficient and optimal impedance matching. Consequently, Ni3Cu1-HHTP could harvest a minimum reflection loss of -70.3 dB and an effective absorption bandwidth of 5.12 GHz. This study clarifies mechanisms of microstructure-function correlations in bimetallic cMOFs and provides a protocol for precise modulation of interlayer spacing and electronic band structure in cMOF-based electromagnetic wave materials.

Topics & Concepts

BimetalMaterials scienceElectrical conductorDielectricAbsorption (acoustics)Electrically conductiveOptoelectronicsElectromagnetic radiationNanotechnologyComposite materialOpticsPhysicsZnO doping and propertiesMagnesium Oxide Properties and ApplicationsMetal-Organic Frameworks: Synthesis and Applications
Conductive Bimetal–Organic Frameworks with Volcano-Type Fine-Tuned Dielectric Properties for Electromagnetic Wave Absorption | Litcius