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. 2024 May 8;9(20):22003–22015. doi: 10.1021/acsomega.3c10409

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© 2024 The Authors. Published by American Chemical Society

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(a) Simulations of the dynamic process of a nanofluid droplet impacting the cold MN200 superhydrophobic Cu surface (−5 °C) at a velocity of 1.4 m/s. (b) Simulations of the dynamic process of a nanofluid droplet impacting the cold N superhydrophobic Cu surface (−5 °C) at a velocity of 1.4 m/s. (c) Simulations of the temperature distribution on the cold MN200 superhydrophobic Cu surface at the moment when the nanofluid droplet reaches its maximum spreading ratio. (d) Simulations of the temperature distribution on the cold N superhydrophobic Cu surface at the moment when the nanofluid droplet reaches its maximum spreading ratio.