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Fluoride-Rich, Organic-Inorganic Gradient Interphase Enabled by Sacrificial Solvation Shells for Reversible Zinc Metal Batteries

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Modeling of a vanadium redox flow battery electricity storage system

Christian Blanc

Today, the electricity industries are facing new challenges as the market is being liberalized and deregulated in many countries. Electricity storage is undoubtedly a disruptive technology that will play, in the near future, a major role in the fast develo ...

EPFL2009

New electrolytes for high power Li-ion batteries

Davide Di Censo

A new generation of high power Li-ion batteries that avoid carbon as anodic material replacing it with the spinel Li4Ti5O12 has been studied in this work. For these new Li-ion cells new electrolyte compositions can be considered. The main work of this thes ...

EPFL2005

Physical principles and miniaturization of Spark Assisted Chemical Engraving (SACE)

Hannes Bleuler, Rolf Wüthrich, Ashwin Lal

Spark assisted chemical engraving (SACE) is an unconventional micromachining technology based on electrochemical discharge phenomena for glass and various ceramics. The limits of SACE with respect to small dimensions in the particular case of glass are exp ...

2005

3-D zinc/air bipolar rechargeable battery

Christos Comninellis, Christian Schlatter

For the development of a rechargeable zinc/air battery, La0.6Ca0.4CoO3 (perovskite) catalyzed bifunctional oxygen electrodes and 3-D zinc electrodes were prepd. and tested in a bipolar zinc/air battery. In addn., a numerical model for the zinc electrode wa ...

Kluwer1996

Alkaline rechargeable zinc/air battery

Christos Comninellis, Christian Schlatter

The research and development of a durable, elec. rechargeable Zn/O2 battery in the PSI-BEW project at the Paul Scherrer Institute is described in a review with many refs. The first phase included the development of La0.6Ca0.4CoO3-activated bifunctional O2 ...

Paul-Scherrer-Inst.,Villingen,Switz.1996

New generation of rechargeable zinc-air batteries

Christos Comninellis

For the development of an elec. rechargeable zinc/air battery, La0.6Ca0.4CoO3-catalyzed (perovskite) bifunctional oxygen electrodes and pasted zinc electrodes were prepd. and tested in a monopolar zinc/oxygen cell. In addn., a bipolar Zn/oxygen stack was t ...

1996

Development of rechargeable monopolar and bipolar zinc/air batteries

Christos Comninellis, Christian Schlatter

For the development of a rechargeable zinc/air battery, La0.6Ca0.4CoO3-catalyzed (perovskite) bifunctional oxygen electrodes and pasted zinc electrodes were prepd. and tested in monopolar zinc/air cells. In addn., a bipolar Zn/air stack was tested using re ...

1995