Water‐Enabled Electricity Generation: A Perspective

Abstract: Harvesting energy from the environment offers many opportunities for the generation of clean power from self‐sustained systems and provides great promise for ameliorating the growing threat of the global environmental issues and the energy crisis. Ambient moisture and natural water sources have attracted huge research interest in the field of energy harvesting and conversion due to easy access, good sustainability, and the ubiquity of water on Earth. Taking advantage of the active interaction between water mol… Show more

“…Water evaporation-induced electricity is a new topic with limited understanding of the working mechanisms. Streaming potential, , evaporation potential, ionovoltaic voltage generation, and so on have been proposed, yet it is commonly agreed that streaming potential is the main contribution. For this specific case, the mechanism is even more complicated as solar irradiation is applied and Fe 3 O 4 could potentially be a catalyst for reactions under solar irradiation.…”

“…Water is the largest energy carrier on earth, containing around 35% of solar energy received by the Earth, corresponding to over 2000 times the world energy demand . Renewable energy harvesting from water using nanomaterials and nanotechnologies has attracted wide attention. − Hydrovoltaic energy harvesting, water evaporation-induced electricity generation in particular, is promising owing to the considerable energy embedded in the universal evaporation process (around 2/3 of water energy), applicability to a wide range of materials (such as carbon nanomaterials, , Ni–Al alloy, , polymers, and metal–organic frameworks), and easy device fabrication where the electrodes can be used multiple times. ,, Electricity generation relies on the interactions between water and materials, mainly based on the classical streaming potential, , which is electrical potential generation by driving water through a narrow channel under pressure gradience. Power generation is strongly influenced by the materials’ surface chemistry, which governs the interfacial charging/discharging, ,, materials’ nanoporous structure, and water evaporation rate .…”

Gradience Free Nanoinsertion of Fe₃O₄ into Wood for Enhanced Hydrovoltaic Energy Harvesting

“…Water evaporation-induced electricity is a new topic with limited understanding of the working mechanisms. Streaming potential, , evaporation potential, ionovoltaic voltage generation, and so on have been proposed, yet it is commonly agreed that streaming potential is the main contribution. For this specific case, the mechanism is even more complicated as solar irradiation is applied and Fe 3 O 4 could potentially be a catalyst for reactions under solar irradiation.…”

“…Water is the largest energy carrier on earth, containing around 35% of solar energy received by the Earth, corresponding to over 2000 times the world energy demand . Renewable energy harvesting from water using nanomaterials and nanotechnologies has attracted wide attention. − Hydrovoltaic energy harvesting, water evaporation-induced electricity generation in particular, is promising owing to the considerable energy embedded in the universal evaporation process (around 2/3 of water energy), applicability to a wide range of materials (such as carbon nanomaterials, , Ni–Al alloy, , polymers, and metal–organic frameworks), and easy device fabrication where the electrodes can be used multiple times. ,, Electricity generation relies on the interactions between water and materials, mainly based on the classical streaming potential, , which is electrical potential generation by driving water through a narrow channel under pressure gradience. Power generation is strongly influenced by the materials’ surface chemistry, which governs the interfacial charging/discharging, ,, materials’ nanoporous structure, and water evaporation rate .…”

Gradience Free Nanoinsertion of Fe₃O₄ into Wood for Enhanced Hydrovoltaic Energy Harvesting

“…Heterogeneous surface potential and blockage of streaming potential A streaming current produced as a liquid ows through a charged micro-/nano-channel, has been a common source for water-enabled electricity generation [30][31][32][33][34] . The surface charge of a solid in liquid medium derives from the ionization or dissociation of surface groups, adsorption of ions from solution, or chemical substitution of surface groups 35,36 nanoparticles and the interface between adjacent particles in nanoporous Al 2 O 3 structure (Supplementary Fig.…”

A simple self-powered sensor for the detection of D2O and other isotopologues of liquid water

“…Water and energy extraction from moisture has become a hotbed of research with a surge in the number of publications reviewing advances in atmospheric water and energy generation technologies. [14][15][16][17][18][19][20][21][22][23][24][25][26] However, most of these review papers either discuss the water and energy strategies separately or one type of energy conversion, without establishing an association between these strategies.…”

Advances in harvesting water and energy from ubiquitous atmospheric moisture