Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices
Formation of ionogels through in situ polymerization can effectively improve electrolyte processability; however, the curing process has been slow and oxygen-sensitive. Considering the low oxygen solubility of poly(ionic liquid)s (PILs), in situ polymerized ionogels are designed to realize excellent...
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sg-ntu-dr.10356-1647532023-02-13T07:00:17Z Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices Poh, Wei Church Eh, Alice Lee-Sie Wu, Wenting Guo, Xiaoyu Lee, Pooi See School of Materials Science and Engineering Singapore-HUJ Alliance for Research and Enterprise (SHARE) Engineering::Materials Electrochromism In Situ Polymerization Formation of ionogels through in situ polymerization can effectively improve electrolyte processability; however, the curing process has been slow and oxygen-sensitive. Considering the low oxygen solubility of poly(ionic liquid)s (PILs), in situ polymerized ionogels are designed to realize excellent electrolytes. Herein, two in situ polymerized ionogels (PIL A & PIL B) are formulated, and they can be rapidly photocured within a minute. The ionogels are highly transparent, stretchable, and exhibit excellent physicochemical stability, including thermal, electrochemical, and air stability, allowing them to perform in various conditions. Benefitting from these properties, two high-performance electrochromic devices (ECDs) are assembled, with iron-centered coordination polymer (FeCP) and tungsten oxide (P-WO3 ) electrochromic materials, achieving high color contrast (45.2% and 56.4%), fast response time (1.5/1.9 and 1.7/6.4 s), and excellent cycling endurance (>90% retention over 3000 cycles). Attributed to the thermal robustness of the ionogels, the ECDs can also be operated over a wide temperature range (-20 to 100 °C). With the use of deformable substrates (e.g., ultrathin ITO glass), curved electrochromic eye protector and flexible electrochromic displays are realized, highlighting their potential use in futuristic wearables. Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) W.C.P. is supported by NTU Research Scholarship awarded by Nanyang Technological University. The authors acknowledge the funding from Ministry of Education AcRF Tier 1 RG64/21, and Campus for Research Excellence and Technological Enterprise (CREATE) that is supported by the National Research Foundation, Prime Minister’s Office, Singapore. 2023-02-13T07:00:17Z 2023-02-13T07:00:17Z 2022 Journal Article Poh, W. C., Eh, A. L., Wu, W., Guo, X. & Lee, P. S. (2022). Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices. Advanced Materials, 34(51), 2206952-. https://dx.doi.org/10.1002/adma.202206952 0935-9648 https://hdl.handle.net/10356/164753 10.1002/adma.202206952 36255145 2-s2.0-85142140533 51 34 2206952 en RG64/21 Advanced Materials © 2022 Wiley-VCH GmbH. All rights reserved. |
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Engineering::Materials Electrochromism In Situ Polymerization Poh, Wei Church Eh, Alice Lee-Sie Wu, Wenting Guo, Xiaoyu Lee, Pooi See Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices |
| description |
Formation of ionogels through in situ polymerization can effectively improve electrolyte processability; however, the curing process has been slow and oxygen-sensitive. Considering the low oxygen solubility of poly(ionic liquid)s (PILs), in situ polymerized ionogels are designed to realize excellent electrolytes. Herein, two in situ polymerized ionogels (PIL A & PIL B) are formulated, and they can be rapidly photocured within a minute. The ionogels are highly transparent, stretchable, and exhibit excellent physicochemical stability, including thermal, electrochemical, and air stability, allowing them to perform in various conditions. Benefitting from these properties, two high-performance electrochromic devices (ECDs) are assembled, with iron-centered coordination polymer (FeCP) and tungsten oxide (P-WO3 ) electrochromic materials, achieving high color contrast (45.2% and 56.4%), fast response time (1.5/1.9 and 1.7/6.4 s), and excellent cycling endurance (>90% retention over 3000 cycles). Attributed to the thermal robustness of the ionogels, the ECDs can also be operated over a wide temperature range (-20 to 100 °C). With the use of deformable substrates (e.g., ultrathin ITO glass), curved electrochromic eye protector and flexible electrochromic displays are realized, highlighting their potential use in futuristic wearables. |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Poh, Wei Church Eh, Alice Lee-Sie Wu, Wenting Guo, Xiaoyu Lee, Pooi See |
| format |
Article |
| author |
Poh, Wei Church Eh, Alice Lee-Sie Wu, Wenting Guo, Xiaoyu Lee, Pooi See |
| author_sort |
Poh, Wei Church |
| title |
Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices |
| title_short |
Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices |
| title_full |
Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices |
| title_fullStr |
Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices |
| title_full_unstemmed |
Rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices |
| title_sort |
rapidly photocurable solid-state poly(ionic liquid) ionogels for thermally robust and flexible electrochromic devices |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/164753 |
| _version_ |
1759058769784864768 |