Highly-Efficient Seawater Hydrogen Production via a Plug-and-Play Solar-Powered Membrane Distillation-Electrolysis System [0.03%]
Dejun Feng,Longchao Wang,Yuanmiaoliang Chen et al.
Dejun Feng et al.
Moreover, by integrating MD and PEM electrolysis into renewable energy production systems, surplus electricity can be converted into storable H2, thereby addressing energy overcapacity....Keywords: Solar energy; electrolysis; hydrogen production; membrane distillation; renewable energy storage.
Tailoring Materials Design for Aqueous Energy Storage and Conversion through Electrochemical Reconstruction [0.03%]
Wei Guo,Chaochao Dun,Jinghua Guo et al.
Wei Guo et al.
The growing demand for renewable energy has spurred the development of efficient electrochemical systems.
In Situ Microenvironment Engineering Enables Synergistic Suppression of Protons and Chloride for Durable Seawater Oxidation [0.03%]
Zhengwei Cai,Yuntong Sun,Meng Yue et al.
Zhengwei Cai et al.
Direct seawater electrolysis powered by coastal/offshore renewable energy offers a sustainable route for hydrogen production, but its industrial application is hindered by local acidification and chloride-induced anodic catalyst deactivation and corrosion under industrial-level current densities (j).
Enhancing oxygen reduction reaction activity in ZIF-derived catalysts through thermal oxidation-induced micropore enlargement [0.03%]
Yu Joong Kim,Ki Hwan Koh,Hyeong Jun Kim et al.
Yu Joong Kim et al.
In this paper, we present a novel strategy for improving the MA of ZIF-derived catalysts, which is an essential advancement in renewable energy storage and conversion technologies.
Guglielmo Sonnino Sorisio,Stephanie Müller,Catherine A M E Wilson et al.
Guglielmo Sonnino Sorisio et al.
Hydrokinetic turbines are an emerging technology to supply reliable and renewable energy by harnessing kinetic energy from river or tidal flows. They are a potential alternative to current hydropower schemes that impound rivers, cause habitat fragmentation and fish mortality....This study suggests that hydrokinetic turbines do not significantly affect fish movement, thus supporting their utilisation as a suitable technology to extract renewable energy from rivers. © 2026. The Author(s).
Hauke Schlesier,Gonzalo Guillén-Gosálbez,Harald Desing
Hauke Schlesier
The climate crisis mandates building renewable energy infrastructure faster, increasing the demand for primary materials with large environmental footprints. Sourcing these materials from urban mines can mitigate such impacts, but the potential of recycling depends on waste availability.
Luccas Assis Attílio
Luccas Assis Attílio
From a policy perspective, greater trade integration and fiscal policies that promote renewable energy may amplify these spillover effects.
Reinforcement Learning-Based Management in IoT-Enabled Renewable Energy Communities: An Approach to Optimization for Comfort, Economy, and Sustainable Performance [0.03%]
Stefano Caputo,Eleonora Iacobelli,Maurizio De Lucia et al.
Stefano Caputo et al.
The increasing deployment of Internet of Things (IoT) sensing infrastructures and distributed renewable energy resources is enabling the emergence of Renewable Energy Communities (RECs), which require intelligent, adaptive, and decentralized energy management strategies.
Alimul Haque Khan,Ali Newaz Bahar,Khan Wahid
Alimul Haque Khan
Integrating renewable energy sources, optimizing data processing, and ensuring minimal human intervention will be key to developing truly sustainable and scalable solutions.
Making the Bridge Between Experiment and Theory in Metal Oxides for Renewable Energy: Based on TiO2, ZnO, and BiVO4 [0.03%]
Habtamu F Etefa,Francis B Dejene
Habtamu F Etefa
Metal oxides such as TiO2, ZnO, and BiVO4 have emerged as pivotal materials for renewable energy technologies owing to their versatile electronic, optical, and catalytic properties.
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