Publication | Open Access
Discovering connections between terahertz vibrations and elasticity underpinning the collective dynamics of the HKUST-1 metal–organic framework
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Citations
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References
2016
Year
EngineeringNanoporous MaterialCollective DynamicsHkust-1 Metal–organic FrameworkChemistryMolecular DynamicsSpectra-structure CorrelationTerahertz VibrationsMetal-organic PolyhedronMaterials ScienceExperimental TechniquesCovalent Bonded FrameworkPhysical ChemistryMetal-organic FrameworksOrganic Material ChemistrySurface ScienceApplied PhysicsMetal–organic FrameworkInterfacial PhenomenaFunctional Materials
We employed a combination of theoretical and experimental techniques to study the metal–organic framework (MOF)-mechanics central to the paddle-wheel Cu<sub>3</sub>(BTC)<sub>2</sub> porous structure, commonly designated as HKUST-1.
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