Green Synthesis of Highly Porous Zn_4O(BDC)_3 and Cu_3(BTC)_2 Metal-Organic Frameworks for Enhanced Hydrogen Storage: Experimental Characterization and DFT Modeling
POSTER
Abstract
Abstract:
Background: The development of efficient on-board hydrogen storage materials is a critical bottleneck for the advancement of hydrogen fuel cell technology. Metal-Organic Frameworks (MOFs) have emerged as premier candidates due to their exceptional specific surface area (SSA) and tunable porosity.
Background: The development of efficient on-board hydrogen storage materials is a critical bottleneck for the advancement of hydrogen fuel cell technology. Metal-Organic Frameworks (MOFs) have emerged as premier candidates due to their exceptional specific surface area (SSA) and tunable porosity.
*Keywords: Hydrogen Storage, Metal-Organic Frameworks (MOFs), Green Synthesis, DFT Modeling, QTAIM Analysis, Porous Materials.
Publication: A.M. Ahmed Mahmoud, N. Missaoui, S. Nasr, B. Gassoumi, et al., "Non-surfactant template synthesis of highly porous Zn_4O(BDC)_3 and Cu_3(BTC)_2 metal-organic frameworks for efficient hydrogen storage: experimental insights and modeling analysis", Journal of Energy Storage, vol. 123, 116707, 2025. https://doi.org/10.1016/j.est.2024.116707
Presenters
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Ahmed Mahmoud Ahmed Mahmoud
- University of Carthage