Mingrao Liu scite author profile

Mingrao Liu

3Publications

4Citation Statements Received

25Citation Statements Given

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Qingdao University of Science and Technology

Publications

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Performance of passive daytime radiative cooling coating with CaSiO₃ enhanced solar reflectivity and atmospheric window emissivity

Liu¹,

Zhang²,

Li³

et al. 2022

J. Phys. D: Appl. Phys.

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Passive daytime radiative cooling emerges as an environmentally friendly cooling strategy for its zero demand of electricity and fossil energy. In this study, passive daytime radiative cooling coating containing polymethylmethacrylate and CaSiO3 was prepared with a simple process at low cost. The solar reflectivity, atmospheric window emissivity and radiative cooling performance of the prepared coating were investigated. The coating exhibits an average solar reflectance of 96.4% and an average atmospheric window emittance of 97.0%. Under direct solar irradiation, the coating can achieved an average sub-ambient temperature drop of 5.5°C and an average net radiative cooling powerof 72 W m-2. The results are on par with those of the efficient radiative coolers in the literature. Experimental investigation also suggests that the coating has application prospect in dew condensation and retarding the melting process of ice. This study provides a cost-efficient and commercially feasible strategy to fabricate passive daytime radiative cooling coating.

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Electrospun film composed of pearl-string-like microfibers exhibiting excellent radiative cooling performance, moisture permeability and self-cleaning function

Liu

et al. 2023

Optical Materials

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Electrospun Film Composed of Pearl-String-Like Microfibers Exhibiting Excellent Radiative Cooling Performance, Moisture Permeability and Self-Cleaning Function

Liu

et al. 2023

Preprint

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Mingrao Liu

Performance of passive daytime radiative cooling coating with CaSiO₃ enhanced solar reflectivity and atmospheric window emissivity

Electrospun film composed of pearl-string-like microfibers exhibiting excellent radiative cooling performance, moisture permeability and self-cleaning function

Electrospun Film Composed of Pearl-String-Like Microfibers Exhibiting Excellent Radiative Cooling Performance, Moisture Permeability and Self-Cleaning Function

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Mingrao Liu

Performance of passive daytime radiative cooling coating with CaSiO3 enhanced solar reflectivity and atmospheric window emissivity

Electrospun film composed of pearl-string-like microfibers exhibiting excellent radiative cooling performance, moisture permeability and self-cleaning function

Electrospun Film Composed of Pearl-String-Like Microfibers Exhibiting Excellent Radiative Cooling Performance, Moisture Permeability and Self-Cleaning Function

Contact Info

Product

Resources

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Performance of passive daytime radiative cooling coating with CaSiO₃ enhanced solar reflectivity and atmospheric window emissivity