This book reviews the structure and composition of Prussian Blue materials. It presents the state-of-the-art of their application ...
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This book reviews the structure and composition of Prussian Blue materials. It presents the state-of-the-art of their application to metal-ion batteries, highlighting the benefits derived from the integration of electrochemical energy storage with clean energies. It concludes with future perspectives including prototyping and large-scale production.
Focuses on metal-organic frameworks from the Prussian Blue family Presents novel electrode materials for sustainability Includes future perspectives Autorentext María José Piernas Muñoz received her D. Phil. degree in Materials Science and Technology from the Basque Country University and the research centre CIC EnergigGUNE in December 2016 (Spain). During these years she focused her efforts on the development of Prussian blue type materials both for Li-ion and Na-ion batteries. Currently, she is a post-doctoral researcher at Argonne National Laboratory and her research is focused on the investigating new materials for energy storage both for lithium ion batteries for electrical vehicle applications. Elizabeth Castillo Martinez received her D. Phil. degree in Chemistry from the University Complutense of Madrid in 2008. She is an Associate Researcher at CIC-Energigune investigating materials for Lithium ion batteries, including intercalation and conversion materials, redox flow batteries as well as Na-ion batteries with special interest on N=C- related materials (Prussian Blue, Schiff bases and Carbodiimides). Inhalt 1) Introduction to Energy Storage and Rechargeable batteries. 2) Prussian Blue and its analogues. Structures, characterization and applications. 3) Electrochemical performance of Prussian Blue and Analogues in Aqueous Rechargeable Batteries 3.1. Cathode Materials 3.2. Anode Materials 3.3. Full cells 4) Electrochemical performance of Prussian Blue and Analogues in High Energy Density Batteries in Organic Electrolytes (including mechanisms) 4.1. Cathode Materials 4.1.1. Li-ion batteries 4.1.2. Na-ion batteries 4.1.3. K-ion batteries and other chemistries 4.2. Anode Materials 4.3. Full batteries 5) Concluding remarks and Prospects (including prototyping and actual real technology)