Flexible smart photovoltaic foil for energy generation and conservation in buildings. (doi:10.21979/N9/J57WGK)

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Part 2: Study Description
Part 3: Data Files Description
Part 4: Variable Description
Part 5: Other Study-Related Materials
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Flexible smart photovoltaic foil for energy generation and conservation in buildings.

doi:10.21979/N9/J57WGK

DR-NTU (Data)

2022-11-30

1

Meng, Yun; Li, Xin; Wang, Shancheng; Lau, Chooikim; Hu, Hebing; Ke, Yujie; Tan, Gang; Yang, Junyou; Long, Yi, 2022, "Flexible smart photovoltaic foil for energy generation and conservation in buildings.", https://doi.org/10.21979/N9/J57WGK, DR-NTU (Data), V1, UNF:6:45+dzwMr63cyWcY61eyGVQ== [fileUNF]

Flexible smart photovoltaic foil for energy generation and conservation in buildings.

doi:10.21979/N9/J57WGK

Meng, Yun (Nanyang Technological University)

Li, Xin (Helmholtz-Zentrum Berlin)

Wang, Shancheng (Nanyang Technological University)

Lau, Chooikim (University of Wyoming)

Hu, Hebing (Nanyang Technological University)

Ke, Yujie (Nanyang Technological University)

Tan, Gang (University of Wyoming)

Yang, Junyou (Huazhong University of Science and Technology)

Long, Yi (Nanyang Technological University)

EnergyPlus

RG103/19

RG86/20

DR-NTU (Data)

Wang, Shancheng

https://doi.org/10.21979/N9/J57WGK

Engineering, Engineering, Experiment data

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 efficiency 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%. This new strategy to integrate energy-saving functionality into photovoltaic foil initiates a new design rule for smart window development.

Experimental data

10.1016/j.nanoen.2021.106632

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.

10356/152956

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.

• Number of cases: 215

• No. of variables per record: 4

• Type of File: text/tab-separated-values

UNF:6:45+dzwMr63cyWcY61eyGVQ==

• A - A
• T - T
• RITO - RITO
• RGLASS - RGLASS

f108616 Location:

Summary Statistics: Valid 215.0; Min. 360.0; Max. 2500.0; StDev 622.0932405998316; Mean 1430.0

Variable Format: numeric

Notes: UNF:6:CFEPzyqf5eQk568OpASvWw==

f108616 Location:

Summary Statistics: StDev 16.11665649909088; Min. -0.8765; Mean 24.24943023255814; Valid 215.0; Max. 49.97477;

Variable Format: numeric

Notes: UNF:6:llrY7iG90Gvk64lYJS65Iw==

f108616 Location:

Summary Statistics: Mean 25.849475116279073; StDev 12.804129527486301; Min. 10.04955; Max. 48.14482; Valid 215.0

Variable Format: numeric

Notes: UNF:6:+nd2duYdapzuuZwqi9Rz9w==

f108616 Location:

Summary Statistics: Max. 56.34565; Min. 4.4839; Mean 25.23764953488372; StDev 17.20134825863723; Valid 215.0

Variable Format: numeric

Notes: UNF:6:F1daE+rDeg6k3BNWNYHOuw==

Label:

energy simulation.opj

application/octet-stream

Label:

low E.opj

application/octet-stream