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Valorization Strategies in CO2 Capture: A New Life for Exhausted Silica-Polyethylenimine
Summary
Researchers investigated three silica-polyethylenimine (Si-PEI) materials for CO2 adsorption as part of carbon capture and storage strategies, evaluating solvent extraction to recover degraded PEIs and silica, and pyrolysis to obtain valuable alkylated pyrazines. Using thermal, mechanical, and spectroscopic characterization methods, the study explored valorization pathways for spent CO2 sorbents.
The search for alternative ways to give a second life to materials paved the way for detailed investigation into three silica-polyethylenimine (Si-PEI) materials for the purpose of CO<sub>2</sub> adsorption in carbon capture and storage. A solvent extraction procedure was investigated to recover degraded PEIs and silica, and concomitantly, pyrolysis was evaluated to obtain valuable chemicals such as alkylated pyrazines. An array of thermal (TGA, Py-GC-MS), mechanical (rheology), and spectroscopical (ATR-FTIR, <sup>1</sup>H-<sup>13</sup>C-NMR) methods were applied to PEIs extracted with methanol to determine the relevant physico-chemical features of these polymers when subjected to degradation after use in CO<sub>2</sub> capture. Proxies of degradation associated with the plausible formation of urea/carbamate moieties were revealed by Py-GC-MS, NMR, and ATR-FTIR. The yield of alkylpyrazines estimated by Py-GC-MS highlighted the potential of exhausted PEIs as possibly valuable materials in other applications.
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