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membrane-generation-for-water-reuse-in-decentralised-non-sewered-sanitation-techniques:-comparability-of-force-pushed-(opposite-osmosis)-and-thermally-pushed-processes-(membrane-distillation-and-pervaporation)

Membrane generation for water reuse in decentralised non-sewered sanitation techniques: Comparability of force pushed (Opposite Osmosis) and thermally pushed processes (Membrane Distillation and Pervaporation)

Environ. Sci.: Water Res. Technol., 2024, Accepted ManuscriptDOI: 10.1039/D4EW00200H, Paper Open Access &nbsp This article is licensed under a Creative Commons Attribution 3.0 Unported Licence.Edwina Mercer, Chris Davey, Yadira Bajon Fernandez, Santiago Septien, Sean Tyrrel, Elise Cartmell, Marc Pidou, Ewan J. McAdamMembrane processes are

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integration-of-confinement-crosslinking-and-in-situ-grafting-for-developing-synthetic-interphase-towards-stabilize-zinc-anodes

Integration of Confinement Crosslinking and In-Situ Grafting for Developing Synthetic Interphase towards Stabilize Zinc Anodes

Energy Environ. Sci., 2024, Accepted ManuscriptDOI: 10.1039/D4EE02641A, PaperJingwei Chen, Feng Zhang, Jiawei Qian, Weixu Dong, Yifan Qu, Kai Chen, Yangfeng Cui, Li-Feng ChenZn anode is susceptible to the intractable Zn dendrites and interfacial side reactions, thereby hindering the practical implementation of aqueous zinc ion batteries

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synergistic-optimization-of-digital-and-lattice-buildings-thru-ti-intercalation-and-se-emptiness-engineering-for-prime‐efficiency-aluminum-garage

Synergistic Optimization of Digital and Lattice Buildings thru Ti-Intercalation and Se-Emptiness Engineering for Prime‐Efficiency Aluminum Garage

Energy Environ. Sci., 2024, Accepted ManuscriptDOI: 10.1039/D4EE02227K, PaperRongkai Kang, Dongmei Zhang, Han Wang, Boya Zhang, Xingchang Zhang, Guowen Chen, Yiqun Du, Jian-Xin ZhangLayered chalcogenides play significant roles in electrochemical energy storage. However, their application potential is restricted by sluggish charge transfer and storage kinetics. Herein,

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in-situ-crosslinked-matrix-allows-environment-friendly-and-robotically-powerful-natural-sun-cells-with-frozen-nano-morphology-and-awesome-deformability

In-Situ Crosslinked Matrix allows Environment friendly and Robotically Powerful Natural Sun Cells with Frozen Nano-Morphology and Awesome Deformability

Energy Environ. Sci., 2024, Accepted ManuscriptDOI: 10.1039/D4EE02724H, PaperWei Song, Zhenyu Chen, Congqi Lin, Pilan Zhang, Dinghong Sun, Weifu Zhang, Jinfeng Ge, Lin Xie, Ruixiang Peng, Daobin Yang, Quan Liu, Yifei Xu, Ziyi GeFlexible organic solar cells (F-OSCs) with excellent mechanical robustness and high performance are

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