Among capacitors the so called double layer capacitors (DLC) are those with the highest energy density and highest capacity per volume. Double layer capacitors store electric energy in so called Helmholtz double layers on the electrodes. Extensions of this technology are super- or ultracapacitors that store electric energy not only be electrostatic processes but also electrochemically by redox reaction on the electrodes which results in a higher specific capacity.


Fig. 1. Double layer capacitor in discharged state (left) and charged state (right)

Typically tetraalkylammonium salts in acetonitrile are used as electrolytes in electrochemical DLCs, since these electrolytes combine low viscosity, good conductivity and wide electrochemical window. A disadvantage of these electrolytes is the vapor pressure of the organic solvent, since overheating can bear the risk of ignition of the electrolyte.

Ionic Liquids as novel Electrolytes for Double Layer Capacitors

Ionic Liquids are very similar to the commonly used tetraalkylammonium salts from a chemical and structural standpoint, but have the advantage of a much lower melting point. Therefore, they do not require  addition of volatile solvent, like acetonitrile or ethylene- or propylencarbonate, to be liquid over a wide range of temperatures. Operating conditions for ionic liquids can easily be in the range from -35°C bis 250°C. In addition, ionic liquids typically do not have a significant vapor pressure in this temperature range and are not flammable.

Other important aspects for the application in EDLCs are the interesting electrochemical properties of ionic liquids:

  • electric conductivity
  • electrochemical stability

The higher the electrical conductivity the faster the capacitor can be charged and dis-charged.

The electrochemical stability is a measure for the stability of the electrolyte against oxidation or reduction processes. In principal higher capacities of capacitors can be achieved with electrolytes that have a wide electrochemical window.

A number of publications describe the successful use of ionic liquids in EDLCs. [i] Electrolytes based on ionic liquids might offer major advantages for future developments, especially with respect to energy density and safety aspects.

Carbon Nanotubes as new Electrode Materials for Double Layer Capacitors

Due to their fascinating properties, carbon nanotubes (CNTs) have made their way into many different applications since their discovery by Iijimi et al.[ii] The cylindrical nanostructure of two dimensional graphite provides a large p-electron surface and at the same time uniform pores on the nanometer scale. As a consequence, CNTs represent perfect electron conductors and porous materials that can be used in various energy storage systems such as Li-ion batteries, capacitors or fuel cells, as electrode materials.

Another interesting aspect is the combination of ionic liquids and CNTs, which can form so called “bucky gels”. In these gels the CNTs form bundles with a crosslinked structure[iii].

Watanabe et al. showed that these gels can successfully be applied to EDLCs as electrode materials. The specific surface area of the CNT gel electrodes of 654 m2×g-1 was significantly larger than that of conventional carbon electrodes, which had a positive influence on the capacity and led to a reduction of the electrode resistance. [iv]

Text: Dr. Thomas J. S. Schubert, IOLITEC GmbH, 2011.

[IV D]




[i] A. Lewandowski, M. Galinski, J. Phys. Chem. Solids 200465, 281; A. Lewandowski, A. Swiderska, Appl. Phys. 2006A 82, 579-584;

[ii] S. IIjima, T. Ichihashi, Nature 1993363, 603.

[iii] T. Fukushima, A. Kosaka, Y. Ishimura, T. Yamamoto, T. Takigawa, N. Ishii, T. Aida, Science2003300, 2072.

[iv] T. Katakabe, T. Kaneko, M. Watanabe, T. Fukushima, T. Aida, J. Electrochem. Soc. 2005152 (10), A1913.