Lenan Zhang scite author profile

Recent progress in passive radiative cooling technologies has substantially improved cooling performance under direct sunlight. Yet, experimental demonstrations of daytime radiative cooling still severely underperform in comparison with the theoretical potential due to considerable solar absorption and poor thermal insulation at the emitter. In this work, we developed polyethylene aerogel (PEA)—a solar-reflecting (92.2% solar weighted reflectance at 6 mm thick), infrared-transparent (79.9% transmittance between 8 and 13 μm at 6 mm thick), and low-thermal-conductivity (kPEA = 28 mW/mK) material that can be integrated with existing emitters to address these challenges. Using an experimental setup that includes the custom-fabricated PEA, we demonstrate a daytime ambient temperature cooling power of 96 W/m2 and passive cooling up to 13°C below ambient temperature around solar noon. This work could greatly improve the performance of existing passive radiative coolers for air conditioning and portable refrigeration applications.

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Identification of a cellularly active SIRT6 allosteric activator

Huang

et al. 2018

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Ultrahigh-efficiency desalination via a thermally-localized multistage solar still

Zhang

Zhao

et al. 2020

Energy Environ. Sci.

336

209

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Dual-Stage Atmospheric Water Harvesting Device for Scalable Solar-Driven Water Production

LaPotin

Zhong

Zhang

et al. 2021

Joule

186

150

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Bubble growth and departure modes on wettable/non-wettable porous foams in alkaline water splitting

Iwata

Zhang

Wilke

et al. 2021

Joule

148

136

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Passive, high-efficiency thermally-localized solar desalination

Zhang

Zhao

et al. 2021

Energy Environ. Sci.

172

114

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Isoflurane and sevoflurane increase interleukin-6 levels through the nuclear factor-kappa B pathway in neuroglioma cells

Zhang

Yang

et al. 2013

British Journal of Anaesthesia

135

102

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Highly efficient and salt rejecting solar evaporation via a wick-free confined water layer

et al. 2022

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Recent advances in thermally localized solar evaporation hold significant promise for vapor generation, seawater desalination, wastewater treatment, and medical sterilization. However, salt accumulation is one of the key bottlenecks for reliable adoption. Here, we demonstrate highly efficient (>80% solar-to-vapor conversion efficiency) and salt rejecting (20 weight % salinity) solar evaporation by engineering the fluidic flow in a wick-free confined water layer. With mechanistic modeling and experimental characterization of salt transport, we show that natural convection can be triggered in the confined water. More notably, there exists a regime enabling simultaneous thermal localization and salt rejection, i.e., natural convection significantly accelerates salt rejection while inducing negligible additional heat loss. Furthermore, we show the broad applicability by integrating this confined water layer with a recently developed contactless solar evaporator and report an improved efficiency. This work elucidates the fundamentals of salt transport and offers a low-cost strategy for high-performance solar evaporation.

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Lenan Zhang

High-performance subambient radiative cooling enabled by optically selective and thermally insulating polyethylene aerogel

Identification of a cellularly active SIRT6 allosteric activator

Ultrahigh-efficiency desalination via a thermally-localized multistage solar still

Dual-Stage Atmospheric Water Harvesting Device for Scalable Solar-Driven Water Production

Bubble growth and departure modes on wettable/non-wettable porous foams in alkaline water splitting

Passive, high-efficiency thermally-localized solar desalination

Isoflurane and sevoflurane increase interleukin-6 levels through the nuclear factor-kappa B pathway in neuroglioma cells

Highly efficient and salt rejecting solar evaporation via a wick-free confined water layer

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