ALD Alumina Passivated Silicon Nanotrees electrodes for Ultrastable Microsupercapacitors - CEA - Commissariat à l’énergie atomique et aux énergies alternatives Access content directly
Conference Papers Year : 2017

ALD Alumina Passivated Silicon Nanotrees electrodes for Ultrastable Microsupercapacitors


The current trend towards miniaturized and autonomous electronic devices requires innovative energy storage solutions. For instance, autonomous micro-sensor networks or implantable medical devices would need a robust power source with high cyclability and a large power density, which might be out of the scope of conventional battery technologies. For such applications, microsupercapacitors ($\mu$SCs) are promising alternatives, and their integration "on-chip" could allow significant innovations. However, finding a suitable "on-chip" $\mu$SCs technology implies addressing key challenges, such as temperature resistance, silicon industry compatibility and good electrochemical performances on a small footprint. Nanostructures such as SiNWs and SiNTrs demonstrated excellent cyclability with more than 1 million cycles of galvanostatic charge/discharge under a 4 V wide electrochemical windows in EMI-TFSI ionic liquid, with large power densities and good capacitance values. Moreover, the use of silicon for electrode material allows extremely interesting developments towards ?on-chip? integration and potential scale-up production using standard silicon industry processes for small micro-sized energy storage devices. Furthermore, we have also investigated the impact of the addition of a high-k dielectric layer, such as Al$_2$O$_3$ as protective films on silicon nanotrees. The electrochemical performances was enhanced, allowing symmetric 2 electrodes device to reach an unprecedented cell voltage of 5.5 V, improving energy and maximum power densities compared to unmodified nanostructured silicon. The cyclability was also largely enhanced, with only 3% capacitance fade after 1 million galvanostatic charge/discharge cycles at 4 V, and no degradation even after several 100000 cycles over 5 V.-Abstract Type : Invited
Fichier principal
Vignette du fichier
E-mrs-saïd.pdf (82.76 Ko) Télécharger le fichier
Origin : Files produced by the author(s)

Dates and versions

cea-01993979 , version 1 (25-01-2019)


  • HAL Id : cea-01993979 , version 1


P. Gentile, Anthony Valero, Dorian Gaboriau, Maxime Boniface, Dmitry Aldakov, et al.. ALD Alumina Passivated Silicon Nanotrees electrodes for Ultrastable Microsupercapacitors. 2017 E-MRS Fall Meeting, Sep 2017, Varsovie, Poland. ⟨cea-01993979⟩
42 View
7 Download


Gmail Facebook X LinkedIn More