Water vapor is continuously adsorbed onto and desorbed from all kinds of surfaces depending on changes in relative humidity. Adsorption-desorption hysteresis of water that occurs on various nonporous surfaces and extends down to low relative humidities has been reported for decades, but remains unexplained. Here we show experimentally that such hysteresis is a common phenomenon on metal oxide and mineral surfaces and can be divided into two distinct categories based on the wettability of the adsorbent surface. Type I hysteresis occurs on more hydrophobic surfaces and is associated with adsorption isotherms that behave rather linearly as water saturation is approached, whereas type II hysteresis occurs on more hydrophilic surfaces and is associated with adsorption isotherms that curve steeply upward close to saturation. Our model calculations strongly indicate that adsorption in both types occurs cluster-wise, and the type I hysteresis is caused by contact angle hysteresis, while type II hysteresis is associated with film formation close to saturation. The understanding of water vapor adsorption and desorption mechanisms may be key for explaining and quantifying physical and chemical interfacial phenomena in atmospheric and industrial environments.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11447972PMC
http://dx.doi.org/10.1021/acs.langmuir.4c02950DOI Listing

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