Gas and Solution Uptake Properties of Graphene Oxide-Based Composite Materials: Organic vs. Inorganic Cross-Linkers
This study focused on a comparison of the adsorption properties of graphene oxide (GO) and its composites that were prepared via cross-linking with chitosan (CTS) or Al<sup>3+</sup> species, respectively. Comparative material characterization was achieved by several complementary methods...
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MDPI AG
2019-08-01
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| Series: | Journal of Composites Science |
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| Online Access: | https://www.mdpi.com/2504-477X/3/3/80 |
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doaj-0cfeff8269dd4e80b4d3c480d8c1e0612020-11-25T01:57:17ZengMDPI AGJournal of Composites Science2504-477X2019-08-01338010.3390/jcs3030080jcs3030080Gas and Solution Uptake Properties of Graphene Oxide-Based Composite Materials: Organic vs. Inorganic Cross-LinkersMina Sabzevari0Duncan E. Cree1Lee D. Wilson2Department of Mechanical Engineering, University of Saskatchewan, 57 Campus Drive, Saskatoon, SK S7N 5A9, CanadaDepartment of Mechanical Engineering, University of Saskatchewan, 57 Campus Drive, Saskatoon, SK S7N 5A9, CanadaDepartment of Chemistry, University of Saskatchewan, 110 Science Place (Room 156 Thorvaldson Building), Saskatoon, SK S7N 5C9, CanadaThis study focused on a comparison of the adsorption properties of graphene oxide (GO) and its composites that were prepared via cross-linking with chitosan (CTS) or Al<sup>3+</sup> species, respectively. Comparative material characterization was achieved by several complementary methods: SEM, NMR spectroscopy, zeta-potential, dye-based adsorption, and gas adsorption at equilibrium and dynamic conditions. SEM, solids NMR, and zeta-potential results provided supporting evidence for cross-linking between GO and the respective cross-linker units. The zeta-potential of GO composites decreased upon cross-linking due to electrostatic interactions and charge neutralization. Equilibrium and kinetic adsorption profiles of the GO composites with methylene blue (MB) in aqueous media revealed superior uptake over pristine GO. The monolayer adsorption capacity (mg g<sup>−1</sup>) of MB are listed in descending order for each material: GO−CTS (408.6) > GO−Al (351.4) > GO (267.1). The gas adsorption results showed parallel trends, where the surface area and pore structure of the composites exceeded that for GO due to <i>pillaring effects</i> upon cross-linking. The green strategy reported herein for the preparation of tunable GO-based composites revealed versatile adsorption properties for diverse heterogeneous adsorption processes.https://www.mdpi.com/2504-477X/3/3/80graphene oxidechitosanaluminum ioncross-linkinggas uptakecomposites |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Mina Sabzevari Duncan E. Cree Lee D. Wilson |
| spellingShingle |
Mina Sabzevari Duncan E. Cree Lee D. Wilson Gas and Solution Uptake Properties of Graphene Oxide-Based Composite Materials: Organic vs. Inorganic Cross-Linkers Journal of Composites Science graphene oxide chitosan aluminum ion cross-linking gas uptake composites |
| author_facet |
Mina Sabzevari Duncan E. Cree Lee D. Wilson |
| author_sort |
Mina Sabzevari |
| title |
Gas and Solution Uptake Properties of Graphene Oxide-Based Composite Materials: Organic vs. Inorganic Cross-Linkers |
| title_short |
Gas and Solution Uptake Properties of Graphene Oxide-Based Composite Materials: Organic vs. Inorganic Cross-Linkers |
| title_full |
Gas and Solution Uptake Properties of Graphene Oxide-Based Composite Materials: Organic vs. Inorganic Cross-Linkers |
| title_fullStr |
Gas and Solution Uptake Properties of Graphene Oxide-Based Composite Materials: Organic vs. Inorganic Cross-Linkers |
| title_full_unstemmed |
Gas and Solution Uptake Properties of Graphene Oxide-Based Composite Materials: Organic vs. Inorganic Cross-Linkers |
| title_sort |
gas and solution uptake properties of graphene oxide-based composite materials: organic vs. inorganic cross-linkers |
| publisher |
MDPI AG |
| series |
Journal of Composites Science |
| issn |
2504-477X |
| publishDate |
2019-08-01 |
| description |
This study focused on a comparison of the adsorption properties of graphene oxide (GO) and its composites that were prepared via cross-linking with chitosan (CTS) or Al<sup>3+</sup> species, respectively. Comparative material characterization was achieved by several complementary methods: SEM, NMR spectroscopy, zeta-potential, dye-based adsorption, and gas adsorption at equilibrium and dynamic conditions. SEM, solids NMR, and zeta-potential results provided supporting evidence for cross-linking between GO and the respective cross-linker units. The zeta-potential of GO composites decreased upon cross-linking due to electrostatic interactions and charge neutralization. Equilibrium and kinetic adsorption profiles of the GO composites with methylene blue (MB) in aqueous media revealed superior uptake over pristine GO. The monolayer adsorption capacity (mg g<sup>−1</sup>) of MB are listed in descending order for each material: GO−CTS (408.6) > GO−Al (351.4) > GO (267.1). The gas adsorption results showed parallel trends, where the surface area and pore structure of the composites exceeded that for GO due to <i>pillaring effects</i> upon cross-linking. The green strategy reported herein for the preparation of tunable GO-based composites revealed versatile adsorption properties for diverse heterogeneous adsorption processes. |
| topic |
graphene oxide chitosan aluminum ion cross-linking gas uptake composites |
| url |
https://www.mdpi.com/2504-477X/3/3/80 |
| work_keys_str_mv |
AT minasabzevari gasandsolutionuptakepropertiesofgrapheneoxidebasedcompositematerialsorganicvsinorganiccrosslinkers AT duncanecree gasandsolutionuptakepropertiesofgrapheneoxidebasedcompositematerialsorganicvsinorganiccrosslinkers AT leedwilson gasandsolutionuptakepropertiesofgrapheneoxidebasedcompositematerialsorganicvsinorganiccrosslinkers |
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