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Rapid temperature-assisted synthesis of nanoporous γ-cyclodextrin-based metal–organic framework for selective CO2 adsorption
by
Trotta, Francesco
, Hasanzadeh, Mahdi
, Caldera, Fabrizio
, Hamedi, Asma
, Anceschi, Anastasia
in
Adsorption
/ Aqueous solutions
/ Cadmium
/ Carbon dioxide
/ Climate change
/ Crystals
/ Cyclodextrin
/ Cyclodextrins
/ Greenhouse gases
/ Low pressure
/ Metal-organic frameworks
/ Morphology
/ Nitrogen
/ Polyethylene glycol
/ Pore size
/ Porous materials
/ Potassium
/ Scanning electron microscopy
/ Synthesis
/ Volumetric analysis
2021
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Rapid temperature-assisted synthesis of nanoporous γ-cyclodextrin-based metal–organic framework for selective CO2 adsorption
by
Trotta, Francesco
, Hasanzadeh, Mahdi
, Caldera, Fabrizio
, Hamedi, Asma
, Anceschi, Anastasia
in
Adsorption
/ Aqueous solutions
/ Cadmium
/ Carbon dioxide
/ Climate change
/ Crystals
/ Cyclodextrin
/ Cyclodextrins
/ Greenhouse gases
/ Low pressure
/ Metal-organic frameworks
/ Morphology
/ Nitrogen
/ Polyethylene glycol
/ Pore size
/ Porous materials
/ Potassium
/ Scanning electron microscopy
/ Synthesis
/ Volumetric analysis
2021
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Rapid temperature-assisted synthesis of nanoporous γ-cyclodextrin-based metal–organic framework for selective CO2 adsorption
by
Trotta, Francesco
, Hasanzadeh, Mahdi
, Caldera, Fabrizio
, Hamedi, Asma
, Anceschi, Anastasia
in
Adsorption
/ Aqueous solutions
/ Cadmium
/ Carbon dioxide
/ Climate change
/ Crystals
/ Cyclodextrin
/ Cyclodextrins
/ Greenhouse gases
/ Low pressure
/ Metal-organic frameworks
/ Morphology
/ Nitrogen
/ Polyethylene glycol
/ Pore size
/ Porous materials
/ Potassium
/ Scanning electron microscopy
/ Synthesis
/ Volumetric analysis
2021
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Rapid temperature-assisted synthesis of nanoporous γ-cyclodextrin-based metal–organic framework for selective CO2 adsorption
Journal Article
Rapid temperature-assisted synthesis of nanoporous γ-cyclodextrin-based metal–organic framework for selective CO2 adsorption
2021
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Overview
We present a rapid and surfactant-free temperature-assisted synthesis route to prepare γ-cyclodextrin-based metal–organic framework (γ-CD-MOF). The cubic crystals of the CD-MOF with an average edge length of 10–15 µm, specific surface area of 775 m2 g−1 and total pore volume of 0.229 cm3 g−1 were synthesized in much shorter time than conventional CD-MOFs. To show the efficiency of the synthesized CD-MOF as adsorbent of gas, the uptake of CO2 at different temperature and pressure was investigated. It is shown that the CO2 uptake increases with increasing pressure and decreasing temperature. Further microgravimetric investigation on gas adsorption at low pressure demonstrated superior gas uptake (ca. 147 mg g−1) than previous reports. At the maximum equilibrium pressure, the uptake amounts of CO2 were found to be 326 and 268 mg g−1 at 303 and 323 K, respectively. The synthesized CD-MOF has great potential to be used in gas storage and separation applications.
Publisher
Springer Nature B.V
Subject
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