The Infona portal uses cookies, i.e. strings of text saved by a browser on the user's device. The portal can access those files and use them to remember the user's data, such as their chosen settings (screen view, interface language, etc.), or their login data. By using the Infona portal the user accepts automatic saving and using this information for portal operation purposes. More information on the subject can be found in the Privacy Policy and Terms of Service. By closing this window the user confirms that they have read the information on cookie usage, and they accept the privacy policy and the way cookies are used by the portal. You can change the cookie settings in your browser.
Solar Interfacial Evaporation
In article number 2305855, Miao Tian, Xi Xu, and co‐workers propose a multi‐field assisted strategy based on a gradient 3D structure with high tortuosity, which creates a thermal field environment for efficient evaporation through high sunlight absorption and excellent photothermal conversion, uses the gradient structure to optimize the internal pressure field to enhance...
Solar interfacial evaporation is a promising method for solving the global shortage of fresh water. While 2D evaporators can efficiently localize solar‐converted heat at the thin layer of the water–air interface, 3D solar evaporators can maximize energy reutilization while maintaining effective mass transport ability, few studies are conducted to explore the effect of gradient porosity on evaporation...
Set the date range to filter the displayed results. You can set a starting date, ending date or both. You can enter the dates manually or choose them from the calendar.