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Temperature difference-enhanced salinity gradient energy conversion enabled by thermostable hydrogel membrane with anti-swelling property

Zhehua Zhang, Teng Zhou, Xiang‐Yu Kong, Yadong Wu, Weiwen Xin, Yanglansen Cui, Linsen Yang, Tingyang Li, Xin Li, Qingchen Wang, Weipeng Chen, Lei Jiang, Liping Wen

2023Nano Research21 citationsDOI

Abstract

Coupling low-grade heat (LGH) with salinity gradient is an effective approach to increase the efficiency of the nanofluidic-membrane-based power generator. However, it is a challenge to fabricate membranes with high charge density that ensures ion permselectivity, while maintaining chemical and mechanical stability in this composite environment. Here, we develop a bis[2-(methacryloyloxy)ethyl] phosphate (BMAP) hydrogel membrane with good thermal stability and anti-swelling property through self-crosslinking of the selected monomer. By taking advantage of negative space charge and three-dimensional (3D) interconnected nanochannels, salinity gradient energy conversion efficiency is substantially enhanced by temperature difference. Theoretical and experimental results verify that LGH can largely weaken the concentration polarization, promoting transmembrane ion transport. As a result, such a hydrogel membrane delivers high-performance energy conversion with a power density of 11.53 W·m−2 under a negative temperature difference (NTD), showing a 193% increase compared with that without NTD.

Topics & Concepts

MembraneSwellingThermal stabilityChemical engineeringOsmotic powerMaterials scienceReversed electrodialysisPower densityEnergy conversion efficiencyIonConcentration polarizationMonomerSalinityTemperature gradientComposite numberPolarization (electrochemistry)ChemistryComposite materialPolymerPower (physics)OptoelectronicsThermodynamicsOrganic chemistryEngineeringBiologyEcologyPhysical chemistryElectrodialysisBiochemistryForward osmosisQuantum mechanicsPhysicsReverse osmosisSolar-Powered Water Purification MethodsNanopore and Nanochannel Transport StudiesMembrane Separation Technologies
Temperature difference-enhanced salinity gradient energy conversion enabled by thermostable hydrogel membrane with anti-swelling property | Litcius