Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties
Conducting polymer hydrogels (CPHs) are an attractive class of materials that synergize the electrical properties of organic semiconductors with the physical properties of hydrogels. Of particular interest is the implementation of CPHs as electrode materials for electrochemical energy storage by tak...
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sg-ntu-dr.10356-1632012022-11-28T08:54:05Z Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties Quek, Glenn Su, Yude Donato, Ricardo K. Vázquez, Ricardo J. Marangoni, Valeria S. Ng, Pei Rou Costa, Mariana C. F. Kundukad, Binu Novoselov, Konstantin S. Neto, Antonio H. Castro Bazan, Guillermo C. Singapore Centre for Environmental Life Sciences and Engineering Science::Chemistry Conducting Polymers Conjugated Polyelectrolytes Conducting polymer hydrogels (CPHs) are an attractive class of materials that synergize the electrical properties of organic semiconductors with the physical properties of hydrogels. Of particular interest is the implementation of CPHs as electrode materials for electrochemical energy storage by taking advantage of redox-tunable conjugated backbones and the large electroactive surface area. Herein, the use of 2D electrolytes as an effective post-polymerization additive to enhance the pseudocapacitive performance of CPHs, is demonstrated. By using the self-doped conjugated polyelectrolyte CPE-K hydrogel as a model system, improvements in cycling stability, specific capacitance and working voltage window upon addition of the 2D electrolytes, are shown. Furthermore, positively charged 2D electrolytes to be more effective than their negatively charged counterparts are revealed. Rheology measurements and SEM imaging indicate that the 2D electrolytes serve as non-covalent cross-linkers that help in forming a mechanically more robust and highly percolated conducting network. These results provide a new and simple to execute post-polymerization strategy to optimize the electrochemical performance of CPH-based pseudocapacitors. National Research Foundation (NRF) This work was supported by the National University of Singapore start up grant R143-000-A97-133 and the Medium-Sized Centre (MSC) grant from the National Research Foundation (NRF) of Singapore, Prime Minister's Office. G.Q. acknowledges funding from the President's Graduate Fellowship (PGF) under the National University of Singapore. 2022-11-28T08:54:05Z 2022-11-28T08:54:05Z 2022 Journal Article Quek, G., Su, Y., Donato, R. K., Vázquez, R. J., Marangoni, V. S., Ng, P. R., Costa, M. C. F., Kundukad, B., Novoselov, K. S., Neto, A. H. C. & Bazan, G. C. (2022). Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties. Advanced Electronic Materials, 8(5), 2100942-. https://dx.doi.org/10.1002/aelm.202100942 2199-160X https://hdl.handle.net/10356/163201 10.1002/aelm.202100942 2-s2.0-85122307857 5 8 2100942 en R143-000-A97-133 Advanced Electronic Materials © 2022 Wiley-VCH GmbH. All rights reserved. |
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Science::Chemistry Conducting Polymers Conjugated Polyelectrolytes Quek, Glenn Su, Yude Donato, Ricardo K. Vázquez, Ricardo J. Marangoni, Valeria S. Ng, Pei Rou Costa, Mariana C. F. Kundukad, Binu Novoselov, Konstantin S. Neto, Antonio H. Castro Bazan, Guillermo C. Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties |
| description |
Conducting polymer hydrogels (CPHs) are an attractive class of materials that synergize the electrical properties of organic semiconductors with the physical properties of hydrogels. Of particular interest is the implementation of CPHs as electrode materials for electrochemical energy storage by taking advantage of redox-tunable conjugated backbones and the large electroactive surface area. Herein, the use of 2D electrolytes as an effective post-polymerization additive to enhance the pseudocapacitive performance of CPHs, is demonstrated. By using the self-doped conjugated polyelectrolyte CPE-K hydrogel as a model system, improvements in cycling stability, specific capacitance and working voltage window upon addition of the 2D electrolytes, are shown. Furthermore, positively charged 2D electrolytes to be more effective than their negatively charged counterparts are revealed. Rheology measurements and SEM imaging indicate that the 2D electrolytes serve as non-covalent cross-linkers that help in forming a mechanically more robust and highly percolated conducting network. These results provide a new and simple to execute post-polymerization strategy to optimize the electrochemical performance of CPH-based pseudocapacitors. |
| author2 |
Singapore Centre for Environmental Life Sciences and Engineering |
| author_facet |
Singapore Centre for Environmental Life Sciences and Engineering Quek, Glenn Su, Yude Donato, Ricardo K. Vázquez, Ricardo J. Marangoni, Valeria S. Ng, Pei Rou Costa, Mariana C. F. Kundukad, Binu Novoselov, Konstantin S. Neto, Antonio H. Castro Bazan, Guillermo C. |
| format |
Article |
| author |
Quek, Glenn Su, Yude Donato, Ricardo K. Vázquez, Ricardo J. Marangoni, Valeria S. Ng, Pei Rou Costa, Mariana C. F. Kundukad, Binu Novoselov, Konstantin S. Neto, Antonio H. Castro Bazan, Guillermo C. |
| author_sort |
Quek, Glenn |
| title |
Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties |
| title_short |
Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties |
| title_full |
Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties |
| title_fullStr |
Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties |
| title_full_unstemmed |
Pseudocapacitive conjugated polyelectrolyte/2D electrolyte hydrogels with enhanced physico-electrochemical properties |
| title_sort |
pseudocapacitive conjugated polyelectrolyte/2d electrolyte hydrogels with enhanced physico-electrochemical properties |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163201 |
| _version_ |
1751548516388306944 |