CO2 Adsorption on Modified Mesoporous Silicas: The Role of the Adsorption Sites

CO2 Adsorption on Modified Mesoporous Silicas: The Role of the Adsorption Sites

The post-synthesis procedure for cyclic amine (morpholine and 1-methylpiperazine) modified mesoporous MCM-48 and SBA-15 silicas was developed. The procedure for preparation of the modified mesoporous materials does not affect the structural characteristics of the initial mesoporous silicas strongly....

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Veröffentlicht in:Nanomaterials (Basel, Switzerland) Switzerland), 2021-10, Vol.11 (11), p.2831
Hauptverfasser: Ravutsov, Martin, Mitrev, Yavor, Shestakova, Pavletta, Lazarova, Hristina, Simeonov, Svilen, Popova, Margarita
Format: Artikel
Sprache:eng
Schlagworte:
Adsorption
Carbon dioxide
Climate change
CO2 capture
Emissions
Equilibrium conditions
Greenhouse gases
Industrial plant emissions
Membrane filters
modified mesoporous silicas
Morpholine
morpholine and methylpiperazine
NMR
Nuclear magnetic resonance
Pore size
Porous materials
Radiation
Silica
solid-state NMR
Sorbents
Spectrum analysis
Thermal analysis
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Zusammenfassung:The post-synthesis procedure for cyclic amine (morpholine and 1-methylpiperazine) modified mesoporous MCM-48 and SBA-15 silicas was developed. The procedure for preparation of the modified mesoporous materials does not affect the structural characteristics of the initial mesoporous silicas strongly. The initial and modified materials were characterized by XRD, N2 physisorption, thermal analysis, and solid-state NMR. The CO2 adsorption of the obtained materials was tested under dynamic and equilibrium conditions. The NMR data revealed the formation of different CO2 adsorbed forms. The materials exhibited high CO2 absorption capacity lying above the benchmark value of 2 mmol/g and stretching out to the outstanding 4.4 mmol/g in the case of 1-methylpiperazin modified MCM-48. The materials are reusable, and their CO2 adsorption capacities are slightly lower in three adsorption/desorption cycles.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano11112831