Composite materials based on oxides of d and f elements and carbon layers

M. V. Kalinina; L. V. Morozova; T. L. Egorova; M. Yu. Arsentyev; I. I. Khlamov; P. A. Tikhonov; O. A. Shilova

doi:10.1134/S2075113317020071

Access to the full text

Composite materials based on oxides of d and f elements and carbon layers

Authors

Kalinina, M. V.¹
Morozova, L. V.¹
Egorova, T. L.¹
Arsentyev, M. Yu.¹
Khlamov, I. I.¹
Tikhonov, P. A.¹
Shilova, O. A.¹

¹ Russian Academy of Science, Grebenshchikov Institute of Silicate Chemistry, nab. Makarova 2, St. Petersburg, 199155, Russia , St. Petersburg (Russia)

Type

Published Article

Journal

Inorganic Materials: Applied Research

Publisher

Pleiades Publishing

Publication Date

Mar 01, 2017

Volume

8

Issue

2

Pages

254–259

Identifiers

DOI: 10.1134/S2075113317020071

Source

Springer Nature

Keywords

License

Yellow

Abstract

Nanocrystalline powder (~20 nm) with the composition of (ZrO2)0.6(In2O3)0.04 is synthesized on the basis of a co-precipitation method. After its consolidation, a dense and porous ceramic matrix for supercapacitor electrodes is obtained. The deposition conditions are determined for thin nanocarbon and MnO2, Co3O4 layers on the porous ceramic or metal matrix. It is shown that the model supercapacitor with composite electrodes based on nickel foam and thin layers of nanocarbon and MnO2 has the highest average specific capacitance.

Report this publication

Statistics

Seen <100 times