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Literature DB >> 24308639

Sieving of hot gases by hyper-cross-linked nanoscale-hybrid membranes.

Michiel J T Raaijmakers¹, Mark A Hempenius, Peter M Schön, G Julius Vancso, Arian Nijmeijer, Matthias Wessling, Nieck E Benes.

Abstract

Macromolecular networks consisting of homogeneously distributed covalently bonded inorganic and organic precursors are anticipated to show remarkable characteristics, distinct from those of the individual constituents. A novel hyper-cross-linked ultrathin membrane is presented, consisting of a giant molecular network of alternating polyhedral oligomeric silsesquioxanes and aromatic imide bridges. The hybrid characteristics of the membrane are manifested in excellent gas separation performance at elevated temperatures, providing a new and key enabling technology for many important industrial scale applications.

Entities: Chemical Disease

Year: 2013 PMID： 24308639 DOI： 10.1021/ja410047u

Source DB: PubMed Journal: J Am Chem Soc ISSN： 0002-7863 Impact factor: 15.419

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Cited

4 in total

1. Molecular Characterization of Membrane Gas Separation under Very High Temperatures and Pressure: Single- and Mixed-Gas CO₂/CH₄ and CO₂/N₂ Permselectivities in Hybrid Networks.

Authors: Sylvie Neyertz; David Brown; Saman Salimi; Farzaneh Radmanesh; Nieck E Benes
Journal: Membranes (Basel) Date: 2022-05-17

Sieving of hot gases by hyper-cross-linked nanoscale-hybrid membranes.

1. Molecular Characterization of Membrane Gas Separation under Very High Temperatures and Pressure: Single- and Mixed-Gas CO₂/CH₄ and CO₂/N₂ Permselectivities in Hybrid Networks.

2. Polyoctahedral Silsesquioxane Hexachlorocyclotriphosphazene Membranes for Hot Gas Separation.

Review 3. Aquaporin-Based Biomimetic Polymeric Membranes: Approaches and Challenges.

4. Facile manufacture of porous organic framework membranes for precombustion CO₂ capture.

Sieving of hot gases by hyper-cross-linked nanoscale-hybrid membranes.

1. Molecular Characterization of Membrane Gas Separation under Very High Temperatures and Pressure: Single- and Mixed-Gas CO2/CH4 and CO2/N2 Permselectivities in Hybrid Networks.

2. Polyoctahedral Silsesquioxane Hexachlorocyclotriphosphazene Membranes for Hot Gas Separation.

Review 3. Aquaporin-Based Biomimetic Polymeric Membranes: Approaches and Challenges.

4. Facile manufacture of porous organic framework membranes for precombustion CO2 capture.

1. Molecular Characterization of Membrane Gas Separation under Very High Temperatures and Pressure: Single- and Mixed-Gas CO₂/CH₄ and CO₂/N₂ Permselectivities in Hybrid Networks.

4. Facile manufacture of porous organic framework membranes for precombustion CO₂ capture.