New Insights on the Role of Urea on the Dissolution and Thermally-Induced Gelation of Cellulose in Aqueous Alkali
The gelation of cellulose in alkali solutions is quite relevant, but still a poorly understood process. Moreover, the role of certain additives, such as urea, is not consensual among the community. Therefore, in this work, an unusual set of characterization methods for cellulose solutions, such as c...
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| Online Access: | https://www.mdpi.com/2310-2861/4/4/87 |
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doaj-83a46abcc98444e9870a60815f64c1ae2020-11-25T00:17:16ZengMDPI AGGels2310-28612018-12-01448710.3390/gels4040087gels4040087New Insights on the Role of Urea on the Dissolution and Thermally-Induced Gelation of Cellulose in Aqueous AlkaliLuis Alves0Bruno Medronho1Alexandra Filipe2Filipe E. Antunes3Björn Lindman4Daniel Topgaard5Irina Davidovich6Yeshayahu Talmon7CQC, Department of Chemistry, University of Coimbra, 3004-535 Coimbra, PortugalFaculty of Sciences and Technology (MEDITBIO), University of Algarve, Campus de Gambelas, Ed. 8, 8005-139 Faro, PortugalFaculty of Sciences and Technology (MEDITBIO), University of Algarve, Campus de Gambelas, Ed. 8, 8005-139 Faro, PortugalCQC, Department of Chemistry, University of Coimbra, 3004-535 Coimbra, PortugalCQC, Department of Chemistry, University of Coimbra, 3004-535 Coimbra, PortugalDivision of Physical Chemistry, Department of Chemistry, Center for Chemistry and Chemical Engineering, Lund University, SE-221 00 Lund, SwedenDepartment of Chemical Engineering and the Russell Berrie Nanotechnology Institute (RBNI), Technion-Israel Institute of Technology, Haifa 3200003, IsraelDepartment of Chemical Engineering and the Russell Berrie Nanotechnology Institute (RBNI), Technion-Israel Institute of Technology, Haifa 3200003, IsraelThe gelation of cellulose in alkali solutions is quite relevant, but still a poorly understood process. Moreover, the role of certain additives, such as urea, is not consensual among the community. Therefore, in this work, an unusual set of characterization methods for cellulose solutions, such as cryo-transmission electronic microscopy (cryo-TEM), polarization transfer solid-state nuclear magnetic resonance (PTssNMR) and diffusion wave spectroscopy (DWS) were employed to study the role of urea on the dissolution and gelation processes of cellulose in aqueous alkali. Cryo-TEM reveals that the addition of urea generally reduces the presence of undissolved cellulose fibrils in solution. These results are consistent with PTssNMR data, which show the reduction and in some cases the absence of crystalline portions of cellulose in solution, suggesting a pronounced positive effect of the urea on the dissolution efficiency of cellulose. Both conventional mechanical macrorheology and microrheology (DWS) indicate a significant delay of gelation induced by urea, being absent until ca. 60 °C for a system containing 5 wt % cellulose, while a system without urea gels at a lower temperature. For higher cellulose concentrations, the samples containing urea form gels even at room temperature. It is argued that since urea facilitates cellulose dissolution, the high entanglement of the cellulose chains in solution (above the critical concentration, C*) results in a strong three-dimensional network.https://www.mdpi.com/2310-2861/4/4/87cellulosegelationureaNaOHmicrorheologycryo-transmission electronic microscopypolarization transfer solid-state NMRhydrophobic interactions |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Luis Alves Bruno Medronho Alexandra Filipe Filipe E. Antunes Björn Lindman Daniel Topgaard Irina Davidovich Yeshayahu Talmon |
| spellingShingle |
Luis Alves Bruno Medronho Alexandra Filipe Filipe E. Antunes Björn Lindman Daniel Topgaard Irina Davidovich Yeshayahu Talmon New Insights on the Role of Urea on the Dissolution and Thermally-Induced Gelation of Cellulose in Aqueous Alkali Gels cellulose gelation urea NaOH microrheology cryo-transmission electronic microscopy polarization transfer solid-state NMR hydrophobic interactions |
| author_facet |
Luis Alves Bruno Medronho Alexandra Filipe Filipe E. Antunes Björn Lindman Daniel Topgaard Irina Davidovich Yeshayahu Talmon |
| author_sort |
Luis Alves |
| title |
New Insights on the Role of Urea on the Dissolution and Thermally-Induced Gelation of Cellulose in Aqueous Alkali |
| title_short |
New Insights on the Role of Urea on the Dissolution and Thermally-Induced Gelation of Cellulose in Aqueous Alkali |
| title_full |
New Insights on the Role of Urea on the Dissolution and Thermally-Induced Gelation of Cellulose in Aqueous Alkali |
| title_fullStr |
New Insights on the Role of Urea on the Dissolution and Thermally-Induced Gelation of Cellulose in Aqueous Alkali |
| title_full_unstemmed |
New Insights on the Role of Urea on the Dissolution and Thermally-Induced Gelation of Cellulose in Aqueous Alkali |
| title_sort |
new insights on the role of urea on the dissolution and thermally-induced gelation of cellulose in aqueous alkali |
| publisher |
MDPI AG |
| series |
Gels |
| issn |
2310-2861 |
| publishDate |
2018-12-01 |
| description |
The gelation of cellulose in alkali solutions is quite relevant, but still a poorly understood process. Moreover, the role of certain additives, such as urea, is not consensual among the community. Therefore, in this work, an unusual set of characterization methods for cellulose solutions, such as cryo-transmission electronic microscopy (cryo-TEM), polarization transfer solid-state nuclear magnetic resonance (PTssNMR) and diffusion wave spectroscopy (DWS) were employed to study the role of urea on the dissolution and gelation processes of cellulose in aqueous alkali. Cryo-TEM reveals that the addition of urea generally reduces the presence of undissolved cellulose fibrils in solution. These results are consistent with PTssNMR data, which show the reduction and in some cases the absence of crystalline portions of cellulose in solution, suggesting a pronounced positive effect of the urea on the dissolution efficiency of cellulose. Both conventional mechanical macrorheology and microrheology (DWS) indicate a significant delay of gelation induced by urea, being absent until ca. 60 °C for a system containing 5 wt % cellulose, while a system without urea gels at a lower temperature. For higher cellulose concentrations, the samples containing urea form gels even at room temperature. It is argued that since urea facilitates cellulose dissolution, the high entanglement of the cellulose chains in solution (above the critical concentration, C*) results in a strong three-dimensional network. |
| topic |
cellulose gelation urea NaOH microrheology cryo-transmission electronic microscopy polarization transfer solid-state NMR hydrophobic interactions |
| url |
https://www.mdpi.com/2310-2861/4/4/87 |
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