Jiangxiu He scite author profile

The separation of acetylene and carbon dioxide is an essential but challenging process owing to the similar molecular sizes and physical properties of the two gas molecules. Notably, these molecules usually exhibit different orientations in the pore channel. We report an adsorption site selective occupation strategy by taking advantage of differences in orientation to sieve the C2H2 from CO2 in a judiciously designed amine‐functionalized metal–organic framework, termed CPL‐1‐NH2. In this material, the incorporation of amino groups not only occupies the adsorption sites of CO2 molecules and shields the interaction of uncoordinated oxygen atom and CO2 molecules resulting in a negligible adsorption amount and a decrease in enthalpy of adsorption but also strengthened the binding affinity toward C2H2 molecules. This material thus shows an extremely high amount of C2H2 at low pressure and a remarkably high C2H2/CO2 IAST selectivity (119) at 1 bar and 298 K.

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Adsorption Site Selective Occupation Strategy within a Metal–Organic Framework for Highly Efficient Sieving Acetylene from Carbon Dioxide

Yang

Yan

Wang

et al. 2021

Angewandte Chemie

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High CO₂ separation performance on a metal–organic framework composed of nano-cages lined with an ultra-high density of dual-side open metal sites

et al. 2022

Mater. Adv.

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Jiangxiu He

Metal–organic frameworks: a promising platform for constructing non-noble electrocatalysts for the oxygen-reduction reaction

Adsorption Site Selective Occupation Strategy within a Metal–Organic Framework for Highly Efficient Sieving Acetylene from Carbon Dioxide

Adsorption Site Selective Occupation Strategy within a Metal–Organic Framework for Highly Efficient Sieving Acetylene from Carbon Dioxide

High CO₂ separation performance on a metal–organic framework composed of nano-cages lined with an ultra-high density of dual-side open metal sites

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Jiangxiu He

Metal–organic frameworks: a promising platform for constructing non-noble electrocatalysts for the oxygen-reduction reaction

Adsorption Site Selective Occupation Strategy within a Metal–Organic Framework for Highly Efficient Sieving Acetylene from Carbon Dioxide

Adsorption Site Selective Occupation Strategy within a Metal–Organic Framework for Highly Efficient Sieving Acetylene from Carbon Dioxide

High CO2 separation performance on a metal–organic framework composed of nano-cages lined with an ultra-high density of dual-side open metal sites

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Product

Resources

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High CO₂ separation performance on a metal–organic framework composed of nano-cages lined with an ultra-high density of dual-side open metal sites