A Lightweight Beryllium Metal–Organic Framework for Combined Physical and Chemical Hydrogen Storage
Giacomo Provinciali, Naomi Anna Consoli, Martino Degli Innocenti, Anna Moliterni, Heryson Tresmann, Rocco Caliandro, Cinzia Giannini, Rolando Pedicini, Giuliano Giambastiani, Giulia Tuci, Moreno Lelli, Andrea Rossin

TL;DR
A new beryllium-based material can store hydrogen both physically and chemically, offering a promising solution for hydrogen storage.
Contribution
This is the first beryllium MOF capable of both physisorbing hydrogen and chemically binding hydrogen in the form of hydrides.
Findings
The material exhibits a high specific surface area of 2264 m²/g.
It achieves a gravimetric H2 density of 8.0 wt% at 77 K and 80 bar.
Up to 2.1 ammonia borane molecules per formula unit can be loaded into the framework.
Abstract
In this work, we report the synthesis and structural characterization of the beryllium-based metal–organic framework of general formula [Be4O(BDC-NH2)2.5(OAc)] (Be_BDC_NH 2 ), designed for combined physical and chemical hydrogen storage applications. The material was extensively characterized through a plethora of solid-state techniques (including less conventional 9Be NMR-MAS spectroscopy). Structural analysis by X-ray powder diffraction confirmed the formation of a crystalline porous framework of fcu topology isostructural to MOF-5 and to MOF-5(Be), while thermogravimetric studies revealed remarkable thermal stability up to 830 K. Nitrogen adsorption measurements demonstrated a high specific surface area (2264 m2/g after removal of residual acetic acid), confirming the accessible porosity of the material. Hydrogen adsorption experiments (physical hydrogen storage) performed at…
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Taxonomy
TopicsHydrogen Storage and Materials · Metal-Organic Frameworks: Synthesis and Applications · Boron and Carbon Nanomaterials Research
