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Ligand Tailoring Strategy of a Metal-Organic Framework for Optimizing Methane Storage Working Capacities.

Jian-Rui ChenYan-Qi LuoShan HeHao-Long ZhouXiao-Chun Huang
Published in: Inorganic chemistry (2022)
Methane, as the main component of natural gas, shale gas, and marsh gas, is regarded as an ideal clean energy to replace traditional fossil fuels and reduce carbon emissions. Porous materials with superior methane storage capacities are the key to the wide application of adsorbed natural gas technology in vehicle transportation. In this work, we applied a ligand tailoring strategy to a metal-organic framework (NOTT-101) to fine-tune its pore geometry, which was well characterized by gas and dye sorption measurements. High-pressure methane sorption isotherms revealed that the methane storage performance of the modified NOTT-101 can be effectively improved by decreasing the unusable uptake at 5 bar and increasing the total uptake under high pressures, achieving a substantially high volumetric methane storage working capacity of 190 cm 3 (STP) cm -3 at 298 K and 5-80 bar.
Keyphrases
  • metal organic framework
  • carbon dioxide
  • anaerobic digestion
  • room temperature
  • sewage sludge
  • municipal solid waste
  • single cell
  • heavy metals