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Home Science News Earth Science

Wood-Based Device Generates Continuous Electricity from Wastewater Salts

July 9, 2026
in Earth Science
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Wood-Based Device Generates Continuous Electricity from Wastewater Salts

Wood-Based Device Generates Continuous Electricity from Wastewater Salts

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In a groundbreaking advance for sustainable energy, researchers have developed a novel wood-based ion-selective power generator capable of continuously harvesting electricity from the total dissolved solids (TDS) present in wastewater. This innovative technology leverages the charged ions naturally found in wastewater, turning an environmental challenge into a clean energy resource.

The core of the device lies in its utilization of modified wood, treated to selectively permit the flow of specific ions while blocking others, thereby creating an electrochemical gradient. This gradient drives the movement of ions through the wood’s porous structure, generating an electric current without the need for external fuel or complex machinery. The principle harnesses the inherent ionic charge disparities in TDS, such as sodium, chloride, and other charged species common in wastewater streams.

What makes this development particularly remarkable is the continuous nature of electricity generation. Traditional systems that attempt to harvest energy from wastewater often face limitations due to ion depletion or require intermittent regeneration cycles. By contrast, this wood-based generator capitalizes on the constant influx of dissolved ions in untreated wastewater, sustaining electrical output over extended periods.

The implications for environmental sustainability and energy recovery are profound. Wastewater treatment facilities, typically energy-intensive, could incorporate these power generators to reduce operational energy demands or even achieve energy neutrality. Moreover, the use of wood—a renewable, biodegradable material—as the primary structural medium underscores the project’s commitment to eco-friendly design principles.

Technically, the research team engineered the wood’s microstructure to enhance ion selectivity, employing chemical modifications to introduce functional groups that attract and transport targeted ions. This customization ensures optimal efficiency, converting the ion concentration gradient directly into usable electricity with minimal losses. The natural alignment of wood fibers facilitates rapid ion transport, improving current density and overall power output.

Experimental results demonstrate stable voltage and current generation from real wastewater samples, confirming the generator’s practical applicability. The system’s robustness against variable wastewater compositions and flow rates highlights its potential for widespread deployment. Additionally, the low cost and scalability of wood modification processes make this technology economically viable for large-scale implementation.

Future prospects include integrating these generators into existing water treatment infrastructures, urban runoff systems, or remote water sources lacking grid connectivity. Beyond electricity production, the device may serve dual functions by aiding in ion removal and water purification, addressing multiple challenges simultaneously.

This breakthrough exemplifies how interdisciplinary biomaterials research and environmental engineering can converge to produce transformative sustainable technologies. By tapping into the latent electrical potential of everyday wastewater, the wood-based ion-selective generator paves the way for a new class of clean energy harvesters that are both practical and environmentally harmonious.


Subject of Research: Energy generation from total dissolved solids in wastewater using wood-based ion-selective materials

Article Title: Continuous electricity from charged total dissolved solids in wastewater using a wood-based ion-selective power generator

Article References: Yan, W., Sun, J., Han, M. et al. Continuous electricity from charged total dissolved solids in wastewater using a wood-based ion-selective power generator. Nat Commun (2026). https://doi.org/10.1038/s41467-026-75514-7

Image Credits: AI Generated

Tags: continuous electricity from wastewater saltsenvironmentally friendly energy technologyenvironmentally sustainable power solutionsinnovative bio-inspired energy devicesion-selective electrochemical deviceslong-term ionic power generationporous wood ion transportrenewable energy from dissolved solidssustainable energy from wastewater streamssustainable wastewater energy harvestingwastewater treatment energy recoverywood-based ion power generator
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