Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint
Radiative cooling paint (RCP) serves as an effective energy-saving method for cooling of built infrastructure. Given that the synthesis of most RCPs contains volatile organic compounds (VOC) for binder dispersion, water-based systems have been preferred as cost-effective alternatives that can provid...
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sg-ntu-dr.10356-1821362025-01-11T16:49:02Z Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint Fei, Jipeng Han, Di Zhou, Kai Koh, See Wee Ge, Junyu Tan, Jun Yan Ng, Bing Feng Chen, Zhong Cai, Lili Li, Hong School of Mechanical and Aerospace Engineering School of Materials Science and Engineering CNRS International NTU THALES Research Alliances Engineering Water-based radiative cooling paint Robustness Radiative cooling paint (RCP) serves as an effective energy-saving method for cooling of built infrastructure. Given that the synthesis of most RCPs contains volatile organic compounds (VOC) for binder dispersion, water-based systems have been preferred as cost-effective alternatives that can provide low/no emission of VOC for minimized environmental impact. However, development of cost-effective and robust water-based radiative cooling paint is still challenging. Moreover, there exists particle dispersion issues leading to structural non-uniformity when excess amount of water is used in paints with high particle volume concentration (PVC). Herein, we address these challenges by proposing a universal electrostatic-assisted dispersion method to tackle the dispersion challenge. With ultrahigh PVC (∼70 %), the derived radiative cooling paint exhibits dense and uniform surface while maintaining robust mechanical, chemical, and thermal stabilities, as well as universal adhesivity, significantly contrasting to the cracking and poor adhesivity observed in conventional water dispersed paint. Assisted by superfine dispersion and high PVC, our paint achieves excellent optical properties (Rsolar∼ 97 %, ELWIR> 95 %) for enhanced radiative cooling, and is effective under various climates. This work provides insights into more environmental-friendly and durable designs for radiative cooling paint. Ministry of Education (MOE) Nanyang Technological University Submitted/Accepted version This work was supported by the NTU Gap Fund (NGF-2023-14-014), Tier 1 Project (RG153/23) and MOE-T2EP50123–0016 received by Hong Li. 2025-01-09T02:13:55Z 2025-01-09T02:13:55Z 2025 Journal Article Fei, J., Han, D., Zhou, K., Koh, S. W., Ge, J., Tan, J. Y., Ng, B. F., Chen, Z., Cai, L. & Li, H. (2025). Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint. Building and Environment, 269, 112462-. https://dx.doi.org/10.1016/j.buildenv.2024.112462 0360-1323 https://hdl.handle.net/10356/182136 10.1016/j.buildenv.2024.112462 2-s2.0-85212319919 269 112462 en MOE-T2EP50123–0016 NGF-2023-14-014 RG153/23 Building and Environment © 2024 Elsevier Ltd. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1016/j.buildenv.2024.112462. application/pdf |
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Engineering Water-based radiative cooling paint Robustness |
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Engineering Water-based radiative cooling paint Robustness Fei, Jipeng Han, Di Zhou, Kai Koh, See Wee Ge, Junyu Tan, Jun Yan Ng, Bing Feng Chen, Zhong Cai, Lili Li, Hong Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint |
| description |
Radiative cooling paint (RCP) serves as an effective energy-saving method for cooling of built infrastructure. Given that the synthesis of most RCPs contains volatile organic compounds (VOC) for binder dispersion, water-based systems have been preferred as cost-effective alternatives that can provide low/no emission of VOC for minimized environmental impact. However, development of cost-effective and robust water-based radiative cooling paint is still challenging. Moreover, there exists particle dispersion issues leading to structural non-uniformity when excess amount of water is used in paints with high particle volume concentration (PVC). Herein, we address these challenges by proposing a universal electrostatic-assisted dispersion method to tackle the dispersion challenge. With ultrahigh PVC (∼70 %), the derived radiative cooling paint exhibits dense and uniform surface while maintaining robust mechanical, chemical, and thermal stabilities, as well as universal adhesivity, significantly contrasting to the cracking and poor adhesivity observed in conventional water dispersed paint. Assisted by superfine dispersion and high PVC, our paint achieves excellent optical properties (Rsolar∼ 97 %, ELWIR> 95 %) for enhanced radiative cooling, and is effective under various climates. This work provides insights into more environmental-friendly and durable designs for radiative cooling paint. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Fei, Jipeng Han, Di Zhou, Kai Koh, See Wee Ge, Junyu Tan, Jun Yan Ng, Bing Feng Chen, Zhong Cai, Lili Li, Hong |
| format |
Article |
| author |
Fei, Jipeng Han, Di Zhou, Kai Koh, See Wee Ge, Junyu Tan, Jun Yan Ng, Bing Feng Chen, Zhong Cai, Lili Li, Hong |
| author_sort |
Fei, Jipeng |
| title |
Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint |
| title_short |
Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint |
| title_full |
Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint |
| title_fullStr |
Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint |
| title_full_unstemmed |
Electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint |
| title_sort |
electrostatic repellent dispersion method for green and cost-effective aqueous radiative cooling paint |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182136 |
| _version_ |
1821237162134208512 |