Radiative sky cooling cools an object on the earth by emitting thermal infrared radiation to
the cold universe through the atmospheric window (8–13 μm). It consumes no electricity and …

Water harvesting from air in passive, adsorption‐based devices holds great potential for
delivering drinking water to arid regions of the world. This technology requires adsorbents …

Atmospheric water harvesting (AWH) has received tremendous interest because of
population growth, limited freshwater resources, and water pollution. However, key …

Atmospheric water vapor is ubiquitous and represents a promising alternative to address
global clean water scarcity. Sustainably harvesting this resource requires energy neutrality …

Atmospheric water is a resource equivalent to~ 10% of all fresh water in lakes on Earth.
However, an efficient process for capturing and delivering water from air, especially at low …

Energy-efficient production of water from desert air has not been developed. A proof-of-
concept device for harvesting water at low relative humidity was reported; however, it used …

In recent decades, the growing demands for energy saving and accompanying heat
mitigation concerns, together with the vital goal for carbon neutrality, have drawn human …

Water is of central importance for reaching the Sustainable Development Goals (SDGs) of
the United Nations. With predictions of dire global water scarcity, attention is turning to …

A radiative vapor condenser sheds heat in the form of infrared radiation and cools itself to
below the ambient air temperature to produce liquid water from vapor. This effect has been …

In the context of global water scarcity, water vapor available in air is a non-negligible
supplementary fresh water resource. Current and potential energetically passive procedures …