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Enhancing dipole polarization loss in conjugated metal-organic frameworks via coordination symmetry breaking under electromagnetic field

Weize Wang, Rong Liu, Jiaqi Tao, Tao Yu, Yijie Liu, Lvtong Duan, Zifu Zhang, Zhihao He, Shuang Chen, Jintang Zhou, Pïng Chen, Peijiang Liu, Zhengjun Yao

2025Advanced Powder Materials27 citationsDOIOpen Access PDF

Abstract

Modulating the dipole polarization loss in the single-atom region and establishing its direct relationship with the EWA performance remain an unmet challenge. Here, a dual-ligand modulation strategy, i.e., partially changing coordination atoms in the single-metal region (sMr), is introduced to effectively break the coordination symmetry of conjugated metal-organic frameworks (cMOFs), finally enhancing EWA property of cMOFs materials. Further, the asymmetrical sMr is experimentally found to elicit the dipole polarization loss, overcoming the handicaps of other electromagnetic wave loss mechanisms, which directly contribution to enhance EWA performance of this series of cMOFs. This strategy is further confirmed by replacing metal centers. Among studied series of cMOFs, Cu 2.25 /Co 0.75 (HHTP 1.67 HITP 0.33 ) achieves excellent EWA performance with an effective absorption bandwidth of 5.00 GHz and a reflection loss of −66.03 dB. We introduce a dual-ligand modulation strategy targeting single-metal regions within cMOFs here, aiming to achieve superior EWA performance through atomic-scale dipole polarization loss modulation. We hope our study can inspire more exploration to realize high-performance EWA materials.

Topics & Concepts

DipolePolarization (electrochemistry)Electromagnetic fieldConjugated systemMaterials scienceSymmetry breakingChemical physicsField (mathematics)MetalCondensed matter physicsPhysicsChemistryQuantum mechanicsPolymerPhysical chemistryMetallurgyComposite materialMathematicsPure mathematicsMetamaterials and Metasurfaces ApplicationsNonlinear Optical Materials ResearchSolid-state spectroscopy and crystallography