preprints_ui: g9p7f_v1
Data license: ODbL (database) & original licenses (content) · Data source: Open Science Framework
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| g9p7f_v1 | A new Synthesis Route for Long Lasting and Rapid Charging Prussian Blue Analogue for Desalination and Aqueous Batteries | This work reports a novel synthesis route for a Prussian blue analogue with high-rate capability and excellent cyclability in an aqueous electrolyte. The synthesis method is a hybrid of the traditional acid decomposition and precipitation synthesis methods. This new route allows the material to retain the high capacity of acid-decomposed analogues while achieving the cyclability of co-precipitated analogues. With an initial capacity of 37 mAh/g at 32C, the capacity retention of the material remained above 90% after 4,500 cycles and 70% after 15,000 cycles, offering great promise for its application in desalination batteries. | 2024-10-07T01:29:02.447490 | 2024-10-18T16:15:00.740811 | 2024-10-18T16:14:34.103652 | ecsarxiv | 1 | accepted | 1 | 1 | https://doi.org/10.1149/osf.io/g9p7f | GNU General Public License (GPL) 3.0 | PBA Na-ion | ["PBA Na-ion"] | Jacob Morton; Louis Hartmann; Matthieu Dubarry | [{"id": "2vpqy", "name": "Jacob Morton", "index": 0, "orcid": null, "bibliographic": true}, {"id": "j2uvh", "name": "Louis Hartmann", "index": 1, "orcid": null, "bibliographic": true}, {"id": "ebtrx", "name": "Matthieu Dubarry", "index": 2, "orcid": "0000-0002-3228-1834", "bibliographic": true}] | Jacob Morton | Engineering; Electrochemical Engineering | [{"id": "5ae728ad4667e6000f98dd92", "text": "Engineering"}, {"id": "5ae728ad4667e6000f98dd98", "text": "Electrochemical Engineering"}] | https://osf.io/download/670339700ba129500032d96a | 0 | not_applicable | not_applicable | [] | 2025-04-09T21:06:20.848028 |