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Intercalation and Retention of Carbon Dioxide in a Smectite Clay promoted by Interlayer Cations
A good material for CO2 capture should possess some specific properties: (i) a large effective surface area with good adsorption capacity, (ii) selectivity for CO2, (iii) regeneration capacity with minimum energy input, allowing reutilization of the material for CO2 adsorption, and (iv) low cost and high environmental friendliness. Smectite clays are layered nanoporous materials that may be good candidates in this context. Here we report experiments which show that gaseous CO2 intercalates into the interlayer nano-space of smectite clay (synthetic fluorohectorite) at conditions close to ambient. The rate of intercalation, as well as the retention ability of CO2 was found to be strongly dependent on the type of the interlayer cation, which in the present case is Li+, Na+ or Ni2+. Interestingly, we observe that the smectite Li-fluorohectorite is able to retain CO2 up to a temperature of 35°C at ambient pressure, and that the captured CO2 can be released by heating above this temperature. Our estimates indicate that smectite clays, even with the standard cations analyzed here, can capture an amount of CO2 comparable to other materials studied in this context. ; publishedVersion ; © 2015 The Authors. Published by Nature Publishing Group. This is an open access article licensed under a Creative Commons Attribution 4.0 International License
Intercalation and Retention of Carbon Dioxide in a Smectite Clay promoted by Interlayer Cations
A good material for CO2 capture should possess some specific properties: (i) a large effective surface area with good adsorption capacity, (ii) selectivity for CO2, (iii) regeneration capacity with minimum energy input, allowing reutilization of the material for CO2 adsorption, and (iv) low cost and high environmental friendliness. Smectite clays are layered nanoporous materials that may be good candidates in this context. Here we report experiments which show that gaseous CO2 intercalates into the interlayer nano-space of smectite clay (synthetic fluorohectorite) at conditions close to ambient. The rate of intercalation, as well as the retention ability of CO2 was found to be strongly dependent on the type of the interlayer cation, which in the present case is Li+, Na+ or Ni2+. Interestingly, we observe that the smectite Li-fluorohectorite is able to retain CO2 up to a temperature of 35°C at ambient pressure, and that the captured CO2 can be released by heating above this temperature. Our estimates indicate that smectite clays, even with the standard cations analyzed here, can capture an amount of CO2 comparable to other materials studied in this context. ; publishedVersion ; © 2015 The Authors. Published by Nature Publishing Group. This is an open access article licensed under a Creative Commons Attribution 4.0 International License
Intercalation and Retention of Carbon Dioxide in a Smectite Clay promoted by Interlayer Cations
Michels, Leander (Autor:in) / Fossum, Jon Otto (Autor:in) / Rozynek, Zbigniew Jerzy (Autor:in) / Hemmen, Henrik (Autor:in) / Rustenberg, Karin Hveding (Autor:in) / Sobas, Pawel Andrzej (Autor:in) / Kalantzopoulos, Georgios N. (Autor:in) / Knudsen, Kenneth Dahl (Autor:in) / Janec, Marian (Autor:in) / Plivelic, Tomás S. (Autor:in)
01.01.2015
cristin:1276679
9 ; 5 ; Scientific Reports
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
DDC:
690
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