Litcius/Paper detail

Self‐Powered Green Hydrogen Production via Osmotic Energy Harvesting

Jianwei He, Xuejiang Li, Wenna Li, Jin Zhai, Fan Xia

2025Advanced Materials6 citationsDOI

Abstract

Abstract Harnessing renewable energy for green hydrogen production is critical for decarbonization. An ideal, sustainable route involves self‐powered hydrogen production without additional energy input. Here, the osmotic energy between seawater and river water is used to continuously generate electricity to directly produce hydrogen. Efficient hydrogen production is successfully achieved by connecting the osmotic energy device composed of the polyamide acid PAA37 ion selective membrane and the water electrolysis device in series. The PAA37 membrane, featuring engineered sub‐nanometer channels, exhibits an ultra‐high cation transference number (t+ = 0.96). Targeting the critical challenge of scaling up osmotic power generation, the HLZ equation is introduced. It theoretically establishes that the decline in power density under large‐area conditions is primarily attributed to the electrode impedance within the low‐concentration zone. This finding offers a theoretical foundation for guiding the optimization of large‐scale device designs. Consequently, the PAA37 membrane achieves a power density of 6.0 W m −2 over a macroscopic area of 3.14 mm 2 under a 50‐fold KCl. Furthermore, by stacking 110 RED units in series, a remarkable output voltage of 24.3 V is generated. By arranging this stack in series and parallel, the system successfully powers an electrolyzer for direct hydrogen production.

Topics & Concepts

Hydrogen productionMaterials scienceOsmotic powerElectrolysisHydrogenRenewable energyReversed electrodialysisPower densityChemical engineeringElectricity generationEnergy harvestingElectrolysis of waterWater splittingElectrodeMembraneHydrogen fuelStack (abstract data type)NanotechnologyEnergy storageHigh-pressure electrolysisStackingPower to gasScalingVoltageMicrobial electrolysis cellEnergy transformationBiomass (ecology)Process engineeringPolymer electrolyte membrane electrolysisPressure-retarded osmosisCurrent densityMembrane-based Ion Separation TechniquesFuel Cells and Related MaterialsMembrane Separation Technologies
Self‐Powered Green Hydrogen Production via Osmotic Energy Harvesting | Litcius