An amine-based ultrathin polyamide coating for direct carbon dioxide capture from air and point sources with low carbon dioxide concentrations.
Background:
Direct air capture (DAC) technologies allow extraction of carbon dioxide from the atmosphere and storage or conversion to value-added chemicals through catalysis. DAC materials must demonstrate high CO2 capacity and high stability over a long period of time for efficient CO2 capture, as the concentration of CO2 in air is low so effective capture requires large amounts of air flow. The need for DAC has driven the development of alternate capture technologies, the most promising of which is amine-based sorbents. These large surface area porous substrates increase amine loading, and thereby amine density, which increases capture efficiency.
Technology Overview:
This University at Buffalo invention describes an innovative amine-based nanoporous material for DAC of CO2. A facile interfacial polymerization method was created to trap small amines in commercial nanoporous materials. The coating process gave an ultrathin polyamide coating of approximately 20 nm with thermal stability up to 200ºC and excellent sorbent stability after repeated cycle testing. These materials achieve a much higher CO2 purity (≥ 98 vol%) than commercial technologies (<5 vol%). In addition, these materials offer high sorbent stability and loading kinetics, as well as low energy penalty during desorption due to low support fraction and high sorbent loading.
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Source: Emmy Ljs, stock.adobe.com/uk/622743817, stock.adobe.com
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Applications:
Intellectual Property Summary:
US Provisional Patent Application 63/596,966 filed on November 7, 2023.
Stage of Development:
Laboratory demonstration through in vitro studies and analytical chemical analysis.
Licensing Status: Available for licensing or collaboration.
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