Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers
Cellulosic paper-based electrode materials have attracted increasing attention in the field of flexible supercapacitor. As a conductive polymer, polyaniline exhibits high theoretical pseudocapacitive capacitance and has been applied in paper-based electrode materials along with cellulose fibers. How...
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sg-ntu-dr.10356-1803532024-10-02T07:47:49Z Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers Chang, Ziyang Liang, Dingqiang Sun, Shirong Zheng, Shuo Sun, Kexin Wang, Haiping Chen, Yanguang Guo, Daliang Zhao, Huifang Sha, Lizheng Jiang, Wenyan School of Materials Science and Engineering Engineering Cellulose fibers Polyaniline Cellulosic paper-based electrode materials have attracted increasing attention in the field of flexible supercapacitor. As a conductive polymer, polyaniline exhibits high theoretical pseudocapacitive capacitance and has been applied in paper-based electrode materials along with cellulose fibers. However, the stacking of polyaniline usually leads to poor performance of electrodes. In this study, metal-organic coordination polymers of zirconium-alizarin red S and zirconium-phytic acid are applied to modulate the polyaniline layer to obtain high-performance cellulosic paper-based electrode materials. Zirconium hydroxide is firstly loaded on cellulose fibers while alizarin red S and phytic acid are introduced to regulate the morphology of polyaniline through doping and coordination processes. The results show that the introduction of dual coordination polymers is effective to regulate the morphology of polyaniline on cellulose fibers. The performances of the paper-based electrode materials, including electrical conductivity and electrochemistry, are apparently improved. It provides a promising strategy for the potential development of economical and green electrode materials in the conventional paper-making process. This work was funded by the National Natural Science Foundation of China (Grant NO. 32101465) and the Pioneer and Leading Goose R & D Program of Zhejiang (Grant No. 2022C01066). 2024-10-02T07:47:49Z 2024-10-02T07:47:49Z 2024 Journal Article Chang, Z., Liang, D., Sun, S., Zheng, S., Sun, K., Wang, H., Chen, Y., Guo, D., Zhao, H., Sha, L. & Jiang, W. (2024). Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers. International Journal of Biological Macromolecules, 264(Pt 1), 130599-. https://dx.doi.org/10.1016/j.ijbiomac.2024.130599 0141-8130 https://hdl.handle.net/10356/180353 10.1016/j.ijbiomac.2024.130599 38442834 2-s2.0-85186374245 Pt 1 264 130599 en International Journal of Biological Macromolecules © 2024 Elsevier B.V. All rights reserved. |
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Engineering Cellulose fibers Polyaniline |
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Engineering Cellulose fibers Polyaniline Chang, Ziyang Liang, Dingqiang Sun, Shirong Zheng, Shuo Sun, Kexin Wang, Haiping Chen, Yanguang Guo, Daliang Zhao, Huifang Sha, Lizheng Jiang, Wenyan Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers |
| description |
Cellulosic paper-based electrode materials have attracted increasing attention in the field of flexible supercapacitor. As a conductive polymer, polyaniline exhibits high theoretical pseudocapacitive capacitance and has been applied in paper-based electrode materials along with cellulose fibers. However, the stacking of polyaniline usually leads to poor performance of electrodes. In this study, metal-organic coordination polymers of zirconium-alizarin red S and zirconium-phytic acid are applied to modulate the polyaniline layer to obtain high-performance cellulosic paper-based electrode materials. Zirconium hydroxide is firstly loaded on cellulose fibers while alizarin red S and phytic acid are introduced to regulate the morphology of polyaniline through doping and coordination processes. The results show that the introduction of dual coordination polymers is effective to regulate the morphology of polyaniline on cellulose fibers. The performances of the paper-based electrode materials, including electrical conductivity and electrochemistry, are apparently improved. It provides a promising strategy for the potential development of economical and green electrode materials in the conventional paper-making process. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Chang, Ziyang Liang, Dingqiang Sun, Shirong Zheng, Shuo Sun, Kexin Wang, Haiping Chen, Yanguang Guo, Daliang Zhao, Huifang Sha, Lizheng Jiang, Wenyan |
| format |
Article |
| author |
Chang, Ziyang Liang, Dingqiang Sun, Shirong Zheng, Shuo Sun, Kexin Wang, Haiping Chen, Yanguang Guo, Daliang Zhao, Huifang Sha, Lizheng Jiang, Wenyan |
| author_sort |
Chang, Ziyang |
| title |
Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers |
| title_short |
Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers |
| title_full |
Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers |
| title_fullStr |
Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers |
| title_full_unstemmed |
Innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers |
| title_sort |
innovative modification of cellulose fibers for paper-based electrode materials using metal-organic coordination polymers |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/180353 |
| _version_ |
1814047142619119616 |