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Facile synthesis of <scp>M<sub>2</sub></scp>(m‐dobdc) (M = Fe and Mn) metal‐organic frameworks for remarkable hydrogen storage

Satish Kumar Verma, M.A. Shaz, Thakur Prasad Yadav

2022Energy Storage24 citationsDOI

Abstract

Abstract Metal‐organic frameworks (MOFs) are emerging as promising candidates for hydrogen storage material because of their porosity and adjustable hydrocarbon structures coordinated with the metal element. Present work explore the synthesis of M 2 (m‐dobdc) (M = Fe and Mn; m‐dobdc 4− = 4,6‐dioxido‐1,3‐benzenedicarboxylate) metal‐organic frameworks via solvothermal method for the purpose of hydrogen storage application. The X‐ray diffraction, transmission electron microscope, scanning electron microscope, energy dispersive X‐ray analysis, and nuclear magnetic resonance spectroscopic studies have been done to ensure the synthesized material is M 2 (m‐dobdc) (M = Fe and Mn) MOFs. The Brunauer‐Emmett‐Teller (BET) analysis reveals the average pore size of 36.271 nm for Mn 2 (m‐dobdc) MOF whereas the average pore size for fe 2 (m‐dobdc) MOF was found to be 2.1992 nm. The as‐prepared MOF samples are in the mesoporous range based on pore size distribution (internal pore diameter greater than 2 nm) with spherical pore geometry. Hydrogen storage studies shows that Fe 2 (m‐dobdc) has a hydrogen storage capacity of 0.18 wt% at ambient temperature (30°C) under 100 atm H 2 pressure, whereas the hydrogen storage capacity for Mn 2 (m‐dobdc) is 1.38 wt% under identical conditions of temperature and pressure. The hydrogen storage capacity at liquid nitrogen temperature (−196°C) under 100 atm H 2 pressure for Fe 2 (m‐dobdc) and Mn 2 (m‐dobdc) is 4.31 and 8.21 wt%, respectively.

Topics & Concepts

Hydrogen storageMetal-organic frameworkPorosityHydrogenTransmission electron microscopyScanning electron microscopeMesoporous materialMetalMaterials scienceChemistryChemical engineeringCrystallographyNanotechnologyOrganic chemistryComposite materialCatalysisEngineeringAdsorptionMetal-Organic Frameworks: Synthesis and ApplicationsMagnetism in coordination complexesHydrogen Storage and Materials
Facile synthesis of <scp>M<sub>2</sub></scp>(m‐dobdc) (M = Fe and Mn) metal‐organic frameworks for remarkable hydrogen storage | Litcius