High performance hybrid rGO/Ag quasi-periodic mesh transparent electrodes for flexible electrochromic devices


Тип публикации: статья из журнала

Год издания: 2016

Идентификатор DOI: 10.1016/j.apsusc.2015.12.182

Ключевые слова: Quasi-periodic mesh transparent electrode self-organized template, Reduced graphene oxide (rGO), Flexible electrochromic device, Quasi-periodic mesh transparent electrode, self-organized template, Chemical stability, Coatings, Electrochromic devices, Electrochromism, Graphene, Mesh generation, Silver, Temperature, Hybrid electrodes, Low-temperature reduction, Optical transparency, Reduced graphene oxides (RGO), Transparent electrode, Visible degradation, Electrodes

Аннотация: A possibility of creating a stable hybrid coating based on the hybrid of a reduced graphene oxide (rGO)/Ag quasi-periodic mesh (q-mesh) coating has been demonstrated. The main advantages of the suggested method are the low cost of the processes and the technology scalability. The Ag q-mesh coating is formed by means of the magnetroПоказать полностьюn sputtering of silver on the original template obtained as a result of quasi periodic cracking of a silica film. The protective rGO film is formed by low temperature reduction of a graphene oxide (GO) film, applied by the spray-deposition in the solution of NaBH4. The coatings have low sheet resistance (12.3 Omega/sq) and high optical transparency (82.2%). The hybrid coatings are characterized by high chemical stability, as well as they show high stability to deformation impacts. High performance of the hybrid coatings as electrodes in the sandwich-system "electrode-electrochromic composition-electrode" has been demonstrated. The hybrid electrodes allow the electrochromic sandwich to function without any visible degradation for a long time, while an unprotected mesh electrode does not allow performing even a single switching cycle. (C) 2016 Published by Elsevier B.V.

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Выпуск журнала: Vol. 364

Номера страниц: 931-937

ISSN журнала: 01694332

Место издания: AMSTERDAM



  • Voronin A.S. (Krasnoyarsk Scientific Center,Siberian Branch,Russian Academy of Sciences (KSC SB RAS))
  • Ivanchenko F.S. (Siberian Federal University)
  • Shiverskiy A.V. (Siberian Federal University)
  • Fadeev Y.V. (Siberian Federal University)
  • Karpova D.V. (Siberian Federal University)
  • Nemtsev I.V. (Krasnoyarsk Scientific Center,Siberian Branch,Russian Academy of Sciences (KSC SB RAS))
  • Khartov S.V. (Krasnoyarsk Scientific Center,Siberian Branch,Russian Academy of Sciences (KSC SB RAS))
  • Aleksandrovsky A.S. (L.V. Kirensky Institute of Physics,Siberian Branch,Russian Academy of Sciences)
  • Simunin M.M. (National Research University MIET)