Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations
Vanadium oxide (VO2) as a phase changing material possesses abrupt infrared (IR) transmission and thermal emissivity changing during the metal–insulator transition across transition temperature (τc) of 68 °C. However, the high τc, moderate IR transmission and emissivity regulating ability limits its...
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sg-ntu-dr.10356-1370542023-07-14T15:59:05Z Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations Wang, Shancheng Liu, Guowei Hu, Peng Zhou, Yang Ke, Yujie Li, Chuanchang Chen, Jian Cao, Tun Long, Yi School of Materials Science & Engineering Campus for Research Excellence and Technological Enterprise (CREATE) Singapore-HUJ Alliance for Research and Enterprise (SHARE) Nanomaterials for Energy and Energy-Water Nexus (NEW) Engineering::Materials Camouflage Hybrid Materials Vanadium oxide (VO2) as a phase changing material possesses abrupt infrared (IR) transmission and thermal emissivity changing during the metal–insulator transition across transition temperature (τc) of 68 °C. However, the high τc, moderate IR transmission and emissivity regulating ability limits its applications in various fields. A VO2/carbon hybrid phase change material fabricated via homemade plasma enhanced chemical vapor deposition is reported. The material shows a best reported thermal emissivity contrast (0.44) among the experimental values, a largely lowered τc (45 °C), promising a near IR-regulation ability with enhanced photothermal effect in smart windows applications. The theoretical calculation results proved that the improvement of emissivity contrast is due to the hybridization of carbon. This work provides a new approach to synthesize VO2 hybrid materials, which have wide applications in camouflage, sensing, and smart windows. NRF (Natl Research Foundation, S’pore) MOE (Min. of Education, S’pore) Accepted version 2020-02-17T06:51:31Z 2020-02-17T06:51:31Z 2018 Journal Article Wang, S., Liu, G., Hu, P., Zhou, Y., Ke, Y., Li, C., . . . Long, Y. (2018). Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations. Advanced Materials Interfaces, 5(21), 1801063-. doi:10.1177/01461672187709993 2196-7350 https://hdl.handle.net/10356/137054 10.1002/admi.201801063 2-s2.0-85053497573 21 5 1801063 (1 of 8) 1801063 (8 of 8) en Advanced Materials Interfaces This is the peer reviewed version of the following article: Wang, S., Liu, G., Hu, P., Zhou, Y., Ke, Y., Li, C., . . . Long, Y. (2018). Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations. Advanced Materials Interfaces, 5(21), 1801063-, which has been published in final form at https://doi.org/10.1002/admi.201801063. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Engineering::Materials Camouflage Hybrid Materials Wang, Shancheng Liu, Guowei Hu, Peng Zhou, Yang Ke, Yujie Li, Chuanchang Chen, Jian Cao, Tun Long, Yi Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations |
| description |
Vanadium oxide (VO2) as a phase changing material possesses abrupt infrared (IR) transmission and thermal emissivity changing during the metal–insulator transition across transition temperature (τc) of 68 °C. However, the high τc, moderate IR transmission and emissivity regulating ability limits its applications in various fields. A VO2/carbon hybrid phase change material fabricated via homemade plasma enhanced chemical vapor deposition is reported. The material shows a best reported thermal emissivity contrast (0.44) among the experimental values, a largely lowered τc (45 °C), promising a near IR-regulation ability with enhanced photothermal effect in smart windows applications. The theoretical calculation results proved that the improvement of emissivity contrast is due to the hybridization of carbon. This work provides a new approach to synthesize VO2 hybrid materials, which have wide applications in camouflage, sensing, and smart windows. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Wang, Shancheng Liu, Guowei Hu, Peng Zhou, Yang Ke, Yujie Li, Chuanchang Chen, Jian Cao, Tun Long, Yi |
| format |
Article |
| author |
Wang, Shancheng Liu, Guowei Hu, Peng Zhou, Yang Ke, Yujie Li, Chuanchang Chen, Jian Cao, Tun Long, Yi |
| author_sort |
Wang, Shancheng |
| title |
Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations |
| title_short |
Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations |
| title_full |
Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations |
| title_fullStr |
Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations |
| title_full_unstemmed |
Largely lowered transition temperature of a VO2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations |
| title_sort |
largely lowered transition temperature of a vo2/carbon hybrid phase change material with high thermal emissivity switching ability and near infrared regulations |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/137054 |
| _version_ |
1773551375437791232 |