Active thermally tunable and highly sensitive terahertz smart windows based on the combination of a metamaterial and phase change material

doi:10.1039/d3dt00531c

科研成果详情

题名	Active thermally tunable and highly sensitive terahertz smart windows based on the combination of a metamaterial and phase change material
作者	Zheng, Zhipeng 1; Zhao, Wenchao 2; Yi, Zao 1; Bian, Liang 1; Yang, Hua 3; Cheng, Shubo 4; Li, Gongfa 5; Zeng, Liangcai 5; Li, Hailiang 6; Jiang, Peipei 7
发表日期	2023-06-20
发表期刊	Dalton transactions (Cambridge, England : 2003) 影响因子和分区
语种	英语
原始文献类型	Journal Article
关键词	Energy harvesting Metal insulator boundaries Metal insulator transition Metamaterials Oxide films Phase change materials Silica Stealth technology Terahertz waves Absorbances Phase change property SiO 2 layer Smart windows Switching characteristics Tera Hertz Thermo-chromic Tunables Vanadium oxide films Window-based
其他关键词	ELECTROMAGNETICALLY INDUCED TRANSPARENCY ; ELECTROCHEMICAL PERFORMANCE ; ABSORBER
摘要	A thermally tunable terahertz window based on the combination of a metamaterial and the phase change material VO2 is proposed. The window is composed of two vanadium oxide films with a SiO2 layer sandwiched between them. The thermochromic phase change properties of VO2 are the key to the functionality of the window. By controlling the temperature around the room temperature of 300 K, our material can be used as a smart window and it is able to regulate both the absorption and transmission of external terahertz waves in response to changes in temperature. The absorbance can be regulated by more than 90% and the transmittance by more than 80%. The switching characteristics of the window are explained by the insulator-metal transition that vanadium oxide undergoes during the heating process, while localized surface plasmon resonance explains the perfect absorption. In addition, the designed window is not only insensitive to polarised waves, but is thermally flexible and maintains excellent performance over a wide angular range of 0° to 40°. This design will have significant potential for applications in stealth technologies, thermal sensing and switching, and terahertz energy harvesting
资助项目	2022 Scientific Research Project of Huzhou College[2022HXKM07];Southwest University of Science and Technology College Student Innovation Fund Project[CX22-063];Southwest University of Science and Technology College Students’ Innovation and Entrepreneurship Training Program Project[S202210619103];National Natural Science Foundation of China[11604311,21506257,51606158,61705204];Wuhan University of Science and Technology[MECOF2022B01,MTMEOF2021B02];Institute of Microelectronics, Chinese Academy of Sciences[202102153027];
出版者	ROYAL SOC CHEMISTRY
ISSN	1477-9226
EISSN	1477-9234
卷号	52 期号:24 页码:8294-8301
DOI	10.1039/d3dt00531c
页数	8
WOS类目	Chemistry, Inorganic & Nuclear
WOS研究方向	Chemistry
WOS记录号	WOS:000998997300001
收录类别	PUBMED ; SCIE ; EI ; SCOPUS
在线发表日期	2023-05
EI入藏号	20232814370064
EI主题词	Vanadium dioxide
EI分类号	404.1 Military Engineering ; 525.5 Energy Conversion Issues ; 711 Electromagnetic Waves ; 804.2 Inorganic Compounds ; 951 Materials Science
URL	查看原文
PubMed ID	37255020
SCOPUSEID	2-s2.0-85162142827
ESI热点论文	2023-09
ESI高被引论文	2023-11 ; 2024-01 ; 2024-03 ; 2024-05 ; 2024-09 ; 2024-11
通讯作者地址	[Yi, Zao]Joint Laboratory for Extreme Conditions Matter Properties,Southwest University of Science and Technology,Mianyang,621010,China
Scopus学科分类	Inorganic Chemistry
引用统计
文献类型	期刊论文
条目标识符	https://kms.wmu.edu.cn/handle/3ETUA0LF/180612
专题	仁济学院_眼视光、生物医学工程学部
通讯作者	Yi, Zao
作者单位	1.Joint Laboratory for Extreme Conditions Matter Properties,Southwest University of Science and Technology,Mianyang,621010,China; 2.Department of Electronics,School of Electronic Information,Huzhou College,Huzhou,313000,China; 3.State Key Laboratory of Advanced Processing and Recycling of Non-Ferrous Metals,Lanzhou University of Technology,Lanzhou,730050,China; 4.School of Physics and Optoelectronic Engineering,Yangtze University,Hubei,Jingzhou,434023,China; 5.Hubei Key Laboratory of Mechanical Transmission and Manufacturing Engineering,Wuhan University of science and Technology,Wuhan,430081,China; 6.Key Laboratory of Microelectronic Devices & Integrated Technology,Institute of Microelectronics,Chinese Academy of Sciences,Beijing,100029,China; 7.School of Biomedical Engineering,Wenzhou Medical University,Wenzhou,325035,China
推荐引用方式 GB/T 7714	Zheng, Zhipeng,Zhao, Wenchao,Yi, Zao,et al. Active thermally tunable and highly sensitive terahertz smart windows based on the combination of a metamaterial and phase change material[J]. Dalton transactions (Cambridge, England : 2003),2023,52(24):8294-8301.
APA	Zheng, Zhipeng., Zhao, Wenchao., Yi, Zao., Bian, Liang., Yang, Hua., ... & Jiang, Peipei. (2023). Active thermally tunable and highly sensitive terahertz smart windows based on the combination of a metamaterial and phase change material. Dalton transactions (Cambridge, England : 2003), 52(24), 8294-8301.
MLA	Zheng, Zhipeng,et al."Active thermally tunable and highly sensitive terahertz smart windows based on the combination of a metamaterial and phase change material".Dalton transactions (Cambridge, England : 2003) 52.24(2023):8294-8301.