Strained graphitic carbon nitride for hydrogen purification
SW de Silva and A Du and W Senadeera and Y Gu, JOURNAL OF MEMBRANE SCIENCE, 528, 201-205 (2017).
Hydrogen purification from a mixture of gas is a critical step in hydrogen production as an energy source and other clean energy applications. Recently gas purification using membranes with sub- nanometer pores, such as porous graphene has offered an attractive option which purifies the targeted gas from other impurity gases based on size exclusion exploiting the differences in the gases' molecular size. Using a combination of density functional theory (DFT) and molecular dynamic (MD) simulations, we demonstrate that graphitic carbon nitride (g-C3N4), a graphene like 2 -dimensional nanomaterial can effectively purify H-2 from CO2 and CH4. However, under neutral conditions the H-2 flux across the membrane is comparatively weak, and our theoretical analysis shows that the flux can be significantly improved by widening the pore area via applying biaxial strains as low as 2.5% and 5% on the membrane. Interestingly, the strain tuning only improves the membranes H-2 permeability, while its excellent H-2/CO2 and H-2/CH4 selectivity is not compromised.
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