Journal ArticleDOI
Chloroaluminate-Doped Conducting Polymers as Positive Electrodes in Rechargeable Aluminum Batteries
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In this article, the use of conducting polymers as active materials in the positive electrodes of rechargeable aluminum-based batteries operating at room temperature was demonstrated, with electrode capacities at near-theoretical levels and Coulombic efficiencies approaching 100%.Abstract:
Demonstrated here is the use of conducting polymers as active materials in the positive electrodes of rechargeable aluminum-based batteries operating at room temperature. The battery chemistry is based on chloroaluminate ionic liquid electrolytes, which allow reversible stripping and plating of aluminum metal at the negative electrode. Characterization of electrochemically synthesized polypyrrole films revealed doping of the polymers with chloroaluminate anions. Cycling of the conducting polymer electrodes occurred via the electrochemical insertion and removal of these anions. Stable galvanostatic cycling of polypyrrole and polythiophene cells was demonstrated, with electrode capacities at near-theoretical levels (30–100 mAh g–1) and Coulombic efficiencies approaching 100%. The energy density of a sealed sandwich-type cell with polythiophene at the positive electrode was estimated to be 44 Wh kg–1 relative to the total mass of active components. This energy density is competitive with state-of-the-art bat...read more
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Journal ArticleDOI
An ultrafast rechargeable aluminium-ion battery
Meng-Chang Lin,Ming Gong,Bingan Lu,Yingpeng Wu,Di Yan Wang,Mingyun Guan,Michael Angell,Changxin Chen,Jiang Yang,Bing-Joe Hwang,Hongjie Dai +10 more
TL;DR: A rechargeable aluminium battery with high-rate capability that uses an aluminium metal anode and a three-dimensional graphitic-foam cathode, found to enable fast anion diffusion and intercalation, and to withstand more than 7,500 cycles without capacity decay.
Journal ArticleDOI
The rise of organic electrode materials for energy storage
TL;DR: An overview of energy storage systems as a whole, the metrics that are used to quantify the performance of electrodes, recent strategies that have been investigated to overcome the challenges associated with organic electrode materials, and the use of computational chemistry to design and study new materials and their properties are provided.
Journal ArticleDOI
Towards establishing standard performance metrics for batteries, supercapacitors and beyond.
Abolhassan Noori,Maher F. El-Kady,Mohammad S. Rahmanifar,Richard B. Kaner,Mir Fazlollah Mousavi +4 more
TL;DR: An overview of the energy storage devices from conventional capacitors to supercapacitors to hybrid systems and ultimately to batteries is provided, although the focus is kept on capacitive and hybrid energy storage systems.
Journal ArticleDOI
An Overview and Future Perspectives of Aluminum Batteries
Giuseppe Antonio Elia,Krystan Marquardt,Katrin Hoeppner,Sebastien Fantini,Rongying Lin,Etienne Knipping,Willi Peters,Jean-Francois Drillet,Stefano Passerini,Robert Hahn +9 more
TL;DR: The evolution of the various aluminum systems, starting from those based on aqueous electrolytes to, in more details, thosebased on non-aqueously electrolytes, are described, attempting to forecast their chances to reach the status of practical energy storage systems.
Journal ArticleDOI
Design Strategies toward Enhancing the Performance of Organic Electrode Materials in Metal-Ion Batteries
TL;DR: In this paper, the authors present the working principles and fundamental properties of different types of organic electrode materials, including conductive polymers, organosulfur compounds, organic radicals, carbonyl compounds, and other emerging materials.
References
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Journal ArticleDOI
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Journal ArticleDOI
Measurement of interfacial processes at electrode surfaces with the electrochemical quartz crystal microbalance
Daniel A. Buttry,Michael D. Ward +1 more
TL;DR: The last 10-15 years have seen electrochemista applying more and more sophisticated instrumental techniques to studies of electrode surfaces, both because of the increased availability of powerful new tools for interfacial characterization and because of an increased emphasis in modern electrochemical research on detailed characterization of the structure and composition of the interface as mentioned in this paper.