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Solar-driven abnormal evaporation of nanoconfined water

Qiancheng Xia, Yifan Pan, Bin Liu, Xin Zhang, Enze Li, Tao Shen, Shuang Li, Ning Xu, Jie Ding, Chao Wang, Chad D. Vecitis, Guandao Gao

2024Science Advances96 citationsDOIOpen Access PDF

Abstract

Intrinsic water evaporation demands a high energy input, which limits the efficacy of conventional interfacial solar evaporators. Here, we propose a nanoconfinement strategy altering inherent properties of water for solar-driven water evaporation using a highly uniform composite of vertically aligned Janus carbon nanotubes (CNTs). The water evaporation from the CNT shows the unexpected diameter-dependent evaporation rate, increasing abnormally with decreasing nanochannel diameter. The evaporation rate of CNT 10 @AAO evaporator thermodynamically exceeds the theoretical limit (1.47 kg m −2 hour −1 under one sun). A hybrid experimental, theoretical, and molecular simulation approach provided fundamental evidence of different nanoconfined water properties. The decreased number of H-bonds and lower interaction energy barrier of water molecules within CNT and formed water clusters may be one of the reasons for the less evaporative energy activating rapid nanoconfined water vaporization.

Topics & Concepts

EvaporationCarbon nanotubeMaterials scienceEvaporatorVaporizationChemical engineeringChemical physicsSolar energyMoleculeNanotechnologyThermodynamicsChemistryPhysicsOrganic chemistryEcologyHeat exchangerEngineeringBiologySolar-Powered Water Purification MethodsNanopore and Nanochannel Transport StudiesSolar Thermal and Photovoltaic Systems
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