Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window
In recent years, there has been significant advancement in smart window technologies due to their effectiveness in reducing energy consumption of indoor lighting and air-conditioning in buildings. Electrochromic (EC) materials, in particular, have been widely studied as they provide a simple method...
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sg-ntu-dr.10356-857142023-07-14T15:51:17Z Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window Nguyen, Tam Duy Yeo, Loo Pin Mandler, Daniel Magdassi, Shlomo Tok, Alfred Iing Yoong School of Materials Science & Engineering Engineering::Materials Smart Window Hybrid Nanostructure In recent years, there has been significant advancement in smart window technologies due to their effectiveness in reducing energy consumption of indoor lighting and air-conditioning in buildings. Electrochromic (EC) materials, in particular, have been widely studied as they provide a simple method for tuning or modulating visible light and infrared (IR) transmittance. In this work, a novel hybrid, multi-layered SnO2–TiO2–WO3 inverse opal (IO) nanostructure has been fabricated via dip-coating and electrodeposition process. This hybrid nanostructure allows an electrochromic smart window for effective near infrared (NIR) modulation, with high visible transparency and durable EC cycling stability. The visible transparency of as-fabricated hybrid multi-layered SnO2–TiO2–WO3 IO was measured to be in the range of 67.2–88.0% in the bleached state and 67.0–74.4% in the colored state, respectively. Furthermore, the hybrid nanostructure is also able to modulate up to 63.6% NIR radiation at the wavelength of 1200 nm and maintain approximately 82.6% of its NIR blockage capability after 750 reversible cycles. The hybrid multi-layered SnO2–TiO2–WO3 IO nanostructure in this study can potentially be an effective and stable EC material for advanced smart window technology. NRF (Natl Research Foundation, S’pore) Published version 2019-09-02T03:03:30Z 2019-12-06T16:08:54Z 2019-09-02T03:03:30Z 2019-12-06T16:08:54Z 2019 Journal Article Nguyen, T. D., Yeo, L. P., Mandler, D., Magdassi, S., & Tok, A. I. Y. (2019). Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window. RSC Advances, 9(29), 16730-16737. doi:10.1039/C9RA03084K https://hdl.handle.net/10356/85714 http://hdl.handle.net/10220/49835 10.1039/C9RA03084K en RSC Advances © 2019 The Royal Society of Chemistry. This article is licensed under a Creative Commons Attribution 3.0 Unported Licence. 8 p. application/pdf |
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Engineering::Materials Smart Window Hybrid Nanostructure Nguyen, Tam Duy Yeo, Loo Pin Mandler, Daniel Magdassi, Shlomo Tok, Alfred Iing Yoong Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window |
| description |
In recent years, there has been significant advancement in smart window technologies due to their effectiveness in reducing energy consumption of indoor lighting and air-conditioning in buildings. Electrochromic (EC) materials, in particular, have been widely studied as they provide a simple method for tuning or modulating visible light and infrared (IR) transmittance. In this work, a novel hybrid, multi-layered SnO2–TiO2–WO3 inverse opal (IO) nanostructure has been fabricated via dip-coating and electrodeposition process. This hybrid nanostructure allows an electrochromic smart window for effective near infrared (NIR) modulation, with high visible transparency and durable EC cycling stability. The visible transparency of as-fabricated hybrid multi-layered SnO2–TiO2–WO3 IO was measured to be in the range of 67.2–88.0% in the bleached state and 67.0–74.4% in the colored state, respectively. Furthermore, the hybrid nanostructure is also able to modulate up to 63.6% NIR radiation at the wavelength of 1200 nm and maintain approximately 82.6% of its NIR blockage capability after 750 reversible cycles. The hybrid multi-layered SnO2–TiO2–WO3 IO nanostructure in this study can potentially be an effective and stable EC material for advanced smart window technology. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Nguyen, Tam Duy Yeo, Loo Pin Mandler, Daniel Magdassi, Shlomo Tok, Alfred Iing Yoong |
| format |
Article |
| author |
Nguyen, Tam Duy Yeo, Loo Pin Mandler, Daniel Magdassi, Shlomo Tok, Alfred Iing Yoong |
| author_sort |
Nguyen, Tam Duy |
| title |
Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window |
| title_short |
Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window |
| title_full |
Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window |
| title_fullStr |
Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window |
| title_full_unstemmed |
Electrodeposition of amorphous WO3 on SnO2–TiO2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window |
| title_sort |
electrodeposition of amorphous wo3 on sno2–tio2 inverse opal nano-framework for highly transparent, effective and stable electrochromic smart window |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/85714 http://hdl.handle.net/10220/49835 |
| _version_ |
1772825257901555712 |