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Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF

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Last updated 20 fevereiro 2025
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Nanostructured Semiconductors for Photocatalytic CO2 Reduction
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Schematic illustration of the preparation of defect‐engineered
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Engineering MOF surface defects in mixed matrix membranes: An effective strategy to enhance MOF/polymer adhesion and control interfacial gas transport - ScienceDirect
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Polymers, Free Full-Text
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Separation of CH4, H2S, N2 and CO2 gases using four types of nanoporous graphene cluster model: a quantum chemical investigation
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Recent Advances in Carbon-Based Adsorbents for Adsorptive Separation of Light Hydrocarbons
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
The pore size distribution of the two-dimensional PIM-1 sample used
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Highlights Instituto de Ciencia de Materiales de Sevilla
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Catalysts, Free Full-Text
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Electron-mediated control of nanoporosity for targeted molecular separation in carbon membranes
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Recent progress of cocatalysts loaded on carbon nitride for selective photoreduction of CO 2 to CH 4 - Nanoscale (RSC Publishing) DOI:10.1039/D3NR00242J
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Catalysts, Free Full-Text
Understanding CO2/CH4 Separation in Pristine and Defective 2D MOF
Separation of CH4, H2S, N2 and CO2 gases using four types of nanoporous graphene cluster model: a quantum chemical investigation
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