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Nano Energy, 91, 106632.","publicationIDType":"doi","publicationIDNumber":"10.1016/j.nanoen.2021.106632","publicationURL":"https://www.sciencedirect.com/science/article/pii/S2211285521008831"},{"publicationCitation":"Meng, Y., Li, X., Wang, S., Lau, C., Hu, H., Ke, Y., . . . Long, Y. (2022). Flexible smart photovoltaic foil for energy generation and conservation in buildings. Nano Energy, 91, 106632.","publicationIDType":"handle","publicationIDNumber":"10356/152956","publicationURL":"https://hdl.handle.net/10356/152956"}],"software":{"citation:softwareName":"EnergyPlus"},"citation:dsDescription":{"citation:dsDescriptionValue":"Building-integrated solar cells not only generate electricity but also impact the envelope thermal characteristics, thus changing the micro-climate of buildings. Therefore, the collective effects of energy conservation and generation on buildings should be considered in one design. In this work, a smart photovoltaic window foil with near-infrared (NIR) modulation and low long-wavelength IR emissivity has been fabricated by combining organic perovskite and inorganic tungsten doped vanadium dioxide nanoparticles (W-VO2 NPs). The W-VO2 offers solar modulation and promotes extraction and transport of photogenerated charges, giving peak power conversion\nefficiency of 15.4% at 25 ◦C and 16.1% at 45 ◦C and average visible transmission of 25.5%, comparable to the best reported semitransparent perovskite solar cell with an additional favorable NIR modulation of 10.7%. 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