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Literature DB >> 23249267

Carbon dioxide and nitrogen adsorption on cation-exchanged SSZ-13 zeolites.

Trong D Pham¹, Qingling Liu, Raul F Lobo.

Abstract

Samples of high-silica SSZ-13, ion exchanged with protons and alkali-metal cations Li(+), Na(+), and K(+), were investigated using adsorption isotherms of CO(2) and N(2). The results show that Li-, Na-SSZ-13 have excellent CO(2) capacity at ambient temperature and pressure; in general, Li-SSZ-13 shows the highest capacity for N(2), CO(2) particularly in the low-pressure region. The effect of cation type and Si/Al ratio (6 and 12) on the adsorption properties was investigated through analysis of adsorption isotherms and heats of adsorption. The separation of CO(2) in a flue gas mixture was evaluated for these adsorbents in the pressure swing adsorption and vacuum pressure adsorption processes.

Entities: Chemical

Year: 2012 PMID： 23249267 DOI： 10.1021/la304138z

Source DB: PubMed Journal: Langmuir ISSN： 0743-7463 Impact factor: 3.882

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Cited

4 in total

1. H₂O-prompted CO₂ capture on metal silicates in situ generated from SBA-15.

Authors: Meijun Li; Mengkun Tian; Hao Chen; Shannon Mark Mahurin; Zili Wu; Sheng Dai
Journal: RSC Adv Date: 2020-08-04 Impact factor: 3.361

2. CO₂ and water vapor adsorption properties of framework hybrid W-ZSM-5/silicalite-1 prepared from RHA.

Authors: Yisong Wang; He Jia; Xin Fang; Ziyang Qiu; Tao Du
Journal: RSC Adv Date: 2020-06-29 Impact factor: 3.361

3. Interzeolite conversion of a micronsized FAU to a nanosized CHA zeolite free of organic structure directing agent with a high CO₂ capacity.

Authors: Kristoffer H Møller; Maxime Debost; Louwanda Lakiss; Søren Kegnæs; Svetlana Mintova
Journal: RSC Adv Date: 2020-11-25 Impact factor: 4.036

4. Growth Study of Hierarchical Pore SSZ-13 Molecular Sieves with Improved CO₂ Adsorption Performance.

Authors: Runlin Han; Yuxuan Tao; Liang Zhou
Journal: Nanomaterials (Basel) Date: 2021-11-23 Impact factor: 5.076

4 in total

Carbon dioxide and nitrogen adsorption on cation-exchanged SSZ-13 zeolites.

1. H2O-prompted CO2 capture on metal silicates in situ generated from SBA-15.

2. CO2 and water vapor adsorption properties of framework hybrid W-ZSM-5/silicalite-1 prepared from RHA.

3. Interzeolite conversion of a micronsized FAU to a nanosized CHA zeolite free of organic structure directing agent with a high CO2 capacity.

4. Growth Study of Hierarchical Pore SSZ-13 Molecular Sieves with Improved CO2 Adsorption Performance.

1. H₂O-prompted CO₂ capture on metal silicates in situ generated from SBA-15.

2. CO₂ and water vapor adsorption properties of framework hybrid W-ZSM-5/silicalite-1 prepared from RHA.

3. Interzeolite conversion of a micronsized FAU to a nanosized CHA zeolite free of organic structure directing agent with a high CO₂ capacity.

4. Growth Study of Hierarchical Pore SSZ-13 Molecular Sieves with Improved CO₂ Adsorption Performance.