Water is a colossal reservoir of clean energy as it adsorbs thirty-five percent of solar energy
reaching the Earth's surface. More than half of the adsorbed energy turns into latent heat for …

Metal-organic frameworks (MOFs) are novel crystalline porous materials assembled from
metal ions and organic ligands. The adaptability of their design and the fine-tuning of the …

Over the past few years, with the development of global industry and the increase of
population, the shortage of freshwater resources has prompted people to conduct in-depth …

The ubiquitous and spontaneous phase transitions between liquid and gaseous water
contain substantial energy that can be harvested by emerging hydrovoltaic technologies …

The conversion of industrial exhaust gases of nitrogen oxides into high‐value products is
significantly meaningful for global environment and human health. And green synthesis of …

Restricted ambient temperature and slow heat replenishment in the phase transition of water
molecules severely limit the performance of the evaporation-induced hydrovoltaic …

Conspectus Two-dimensional (2D) nanomaterials have attracted increasing research
interest since mechanically exfoliated graphene was obtained in 2004. The ultrathin …

The lack of a strong binding mechanism between nanomaterials severely restricts the
advantages of the evaporation‐driven hydrovoltaic effect in wearable sensing electronics. It …

The integration of interfacial solar steam generation with water evaporation-driven electricity
generation is regarded as one of the most hopeful strategies for addressing global energy …

Ionogel-based flexible sensors are widely applied in wearable biomedical devices and soft
robots. However, the abandoned ionic sensors are rapidly turning into e-waste. Here, we …