Journal article
Effect of Asymmetric Performance of Ionic Liquid Electrolyte Ions on Maximum Operation Potential of Symmetric Supercapacitors
Meeting abstracts (Electrochemical Society), v MA2014-02(4), pp 245-245
05 Aug 2014
Abstract
While known for their high-power performance compared to batteries, supercapacitors
lack the energy density capability for some energy storage applications. Since the
energy density of the device is proportional to the square of operating potential window,
increasing the potential window is an effective way to increase energy density of the
device. Ionic liquid electrolytes are beneficial for this reason since they can theoretically
operate at up to 6 V, though experimentally, the value is between 3-4 V depending on
the properties of electrode materials. By employing a novel electrochemical technique to
study symmetric supercapacitors of carbon electrodes and ionic liquid electrolytes, we
have found one of the possible reasons for smaller operation potential of ionic liquids
in practical applications. We observed that even for a symmetric device with electrodes
similar in size and weight, the different properties of cations and anions of the electrolyte
results in an asymmetric performance of the two similar electrodes. By performing a
systematical study on model electrode materials and ionic liquid electrolyte systems, we
show that a symmetric behavior of the electrode can be achieved by mixing ionic liquids
with different cation and anion properties. This ultimately results in a higher operation
potential window of the device and higher energy density. In our model electrochemical
device, onions like carbons (OLCs) were used to fabricate the device electrodes and two
ionic liquids EMI-TFSI and EMI-BF4 and their mixtures were used as electrolytes.
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Details
- Title
- Effect of Asymmetric Performance of Ionic Liquid Electrolyte Ions on Maximum Operation Potential of Symmetric Supercapacitors
- Creators
- Katherine L Van Aken - #N##N#aDrexel UniversityMajid Beidaghi - Drexel UniversityYury Gogotsi - Drexel University
- Publication Details
- Meeting abstracts (Electrochemical Society), v MA2014-02(4), pp 245-245
- Publisher
- Institute of Physics (IOP)
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Materials Science and Engineering
- Other Identifier
- 991019186771004721