J. Tarascon and M. Armand, Issues and challenges facing rechargeable lithium batteries, Nature, vol.414, pp.359-367, 2001.

A. González, E. Goikolea, J. A. Barrena, and R. Mysyk, Review on supercapacitors: Technologies and materials, vol.58, pp.1189-1206, 2016.

P. Simon and Y. Gogotsi, Materials for electrochemical capacitors, Nature Materials, vol.7, pp.845-854, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02020693

L. L. Zhang and X. S. Zhao, Carbon-based materials as supercapacitor electrodes, Chem. Soc. Rev, vol.38, pp.2520-2531, 2009.

E. Frackowiak, Carbon materials for supercapacitor application, Phys. Chem. Chem. Phys, vol.9, pp.1774-1785, 2007.

E. Frackowiak and F. Béguin, Carbon materials for the electrochemical storage of energy in capacitors, Carbon, vol.39, pp.937-950, 2001.

C. D. Lokhande, D. P. Dubal, and O. Joo, Metal oxide thin film based supercapacitors

, Curr. Appl. Phys, vol.11, pp.255-270, 2011.

W. Sun and X. Chen, Preparation and characterization of polypyrrole films for threedimensional micro supercapacitor, J. Power Sources, vol.193, pp.924-929, 2009.

G. P. Wang, L. Zhang, and J. J. Zhang, A review of electrode materials for electrochemical supercapacitors, Chem. Soc. Rev, vol.41, pp.797-828, 2012.

, Email: emmanuel.scorsone@cea.fr (Emmanuel Scorsone)

R. Kötz and M. Carlen, Principles and applications of electrochemical capacitors, Electrochimica Acta, vol.45, pp.2483-2498, 2000.

P. Azaïs, L. Duclaux, P. Florian, D. Massiot, M. Lillo-rodenas et al.,

C. Peres, F. Jehoulet, and . Béguin, Causes of supercapacitors ageing in organic electrolyte, J Power Sources, vol.171, pp.1046-1053, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00181157

M. Ue, K. Ido, and S. Mori, Electrochemical properties of organic liquid electrolytes based on quaternary onium salts for electrical double-layer capacitors, J Electrochem. Soc, vol.141, pp.2989-2996, 1994.

P. Kurzweil and M. Chwistek, Electrochemical stability of organic electrolytes in supercapacitors: Spectroscopy and gas analysis of decomposition products, J Power Sources, vol.176, pp.555-567, 2008.

R. Y. Lin, P. Taberna, S. Fantini, V. Presser, C. R. Pérez et al.,

K. K. Rupesinghe, Y. Teo, P. Gogotsi, and . Simon, Capacitive energy storage from-50 to 100 o C using an ionic liquid electrolyte, J. Phys. Chem. Lett, vol.2, pp.2396-2401, 2011.

A. Burke, R&D considerations for the performance and application of electrochemical capacitors, Electrochim. Acta, vol.52, pp.1083-1091, 2007.

M. Gali?ski, A. Lewandowski, and I. St?pniak, Ionic liquids as electrolytes, Electrochimica Acta, vol.51, pp.5567-5580, 2006.

M. Toupin, D. Bélanger, I. R. Hill, and D. Quinn, Performance of experimental carbon blacks in aqueous supercapacitors, J. Power Sources, vol.140, pp.203-210, 2005.

L. Demarconnay, E. Raymundo-pi?ero, and F. Béguin, A symmetric carbon/carbon supercapacitor operating at 1.6 V by using a neutral aqueous solution, Electrochem. Commun, vol.12, pp.1275-1278, 2010.

A. Fujishiman, Y. Einaga, T. Narasinga-rao, D. A. Tryk, and D. Electrochemistry, , 2005.

N. Yang, J. S. Foord, and X. Jiang, Diamond electrochemistry at the nanoscale: A review, Carbon, vol.99, pp.90-110, 2016.

W. Smirnov, A. Kriele, N. Yang, and C. E. Nebel, Aligned diamond nano-wires: Fabrication and characterisation for advanced applications in bio-and electrochemistry, Diamond &Related Materials, vol.19, pp.186-189, 2010.

, Email: emmanuel.scorsone@cea.fr (Emmanuel Scorsone)

T. Kondo, Y. Kodama, S. Ikezoe, K. Yajima, T. Aikawa et al., Porous boron-doped diamond electrodes fabricated via two-step thermal treatment, Carbon, vol.77, pp.783-789, 2014.

H. Mehedi, J. Arnault, D. Eon, C. Hébert, D. Carole et al., Etching mechanism of diamond by Ni nanoparticles for fabrication of nanopores, Carbon, vol.59, pp.448-456, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00854585

M. Yoshimura, K. Honda, R. Uchikado, T. Kondo, T. N. Rao et al., Electrochemical characterization of nanoporous honeycomb diamond electrodes in non-aqueous electrolytes, Diamond and Related Materials, vol.10, pp.620-626, 2001.

H. Zhuang, N. Yang, H. Fu, L. Zhang, C. Wang et al., Template-Free Fabrication and Properties, ACS Appl. Mater. Interfaces, vol.7, issue.9, pp.5384-5390, 2015.

F. Gao, G. Lewes-malandrakis, M. T. Wolfer, W. Muller-sebert, P. Gentile et al., Diamond-coated silicon wires for supercapacitor applications in ionic liquids, Diamond and Related Materials, vol.51, pp.1-6, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01592967

F. Gao, M. T. Wolfer, and C. E. Nebel, Highly porous diamond foam as a thin-film micro supercapacitor material, Carbon, vol.80, pp.833-840, 2014.

F. Gao and C. N. Nebel, Diamond-based supercapacitors: realization and properties, ACS Applied Materials&Interfaces

C. Hébert, J. Mazellier, E. Scorsone, M. Mermoux, and P. Bergonzo, Boosting the electrochemical properties of diamond electrodes using carbon nanotube scaffolds, Carbon, vol.71, pp.27-33, 2014.

C. Hébert, E. Scorsone, M. Mermoux, and P. Bergonzo, Porous diamond with high electrochemical performance, Carbon, vol.90, pp.102-109, 2015.

R. Kiran, E. Scorsone, J. De-sanoit, J. Arnault, P. Mailley et al., Boron doped diamond electrodes for direct measurement in biological fluids: an in situ regeneration approach, J. Electrochem. Soc. 160, issue, vol.1, pp.67-73, 2013.
URL : https://hal.archives-ouvertes.fr/cea-01802314

R. Ansari, Polypyrrole Conducting Electro Active Polymers: Synthesis and Stability Studies, E-Journal of Chemistry, vol.3, issue.13, pp.186-201, 2006.

, Email: emmanuel.scorsone@cea.fr (Emmanuel Scorsone)

W. Liu, X. Yan, J. Lang, C. Peng, and Q. Xue, Flexible and conductive nanocomposite electrode based on graphene sheets and cotton cloth for supercapacitor J

. Mater and . Chem, , vol.22, p.17245, 2012.

M. D. Stoller and R. S. Ruoff, Best practice methods for determining an electrode material's performance for ultracapacitors, Energy Environ. Sci, vol.3, pp.1294-1301, 2010.

P. L. Taberna, C. Portet, and P. Simon, Electrode surface treatment and electrochemical impedance spectroscopy study on carbon/carbon supercapacitors, Appl. Phys. A, vol.82, pp.639-646, 2006.
DOI : 10.1007/s00339-005-3404-0
URL : http://oatao.univ-toulouse.fr/2600/1/Taberna_2600

C. Zhong, Y. Deng, W. Hu, D. Sun, X. Han et al., Electrolytes for Electrochemical Supercapacitors, vol.9781498747554, 2016.
DOI : 10.1201/b21497-3

S. Boukhalfa, K. Evanoff, and G. Yushin, Atomic layer deposition of vanadium oxide on carbon nanotubes for high-power supercapacitor electrodes, Energy Environ. Sci, vol.5, p.6872, 2012.
DOI : 10.1039/c2ee21110f

R. A. Huggins, Energy storage-Fundamentals, Materials and Applications, 2016.

G. S. Gund, D. P. Dubal, D. Aradilla, W. Mueller-sebert, G. Bidan et al.,

T. J. Gentile, J. Schubert, S. Wimberg, P. G. Sadki, and . Romero, Diamond-coated silicon nanowires for enhanced micro-supercapacitor with ionic liquids, International Conference on Industrial Instrumentation and Control, pp.1125-1128, 2015.