A binder-free NiCo2 O4 nanosheet/3D elastic N-doped hollow carbon nanotube sponge electrode with high volumetric and gravimetric capacitances for asymmetric supercapacitors.

Journal Article (Journal Article)

To increase the volumetric and gravimetric capacitances of supercapacitors, a new class of electrode materials with high electrochemical activity and favorable structures is extremely desired. In this work, a hollow novel nitrogen-doped 3D elastic single-walled carbon nanotube sponge (NSCS) which is ultra lightweight with the lowest density of 0.8 mg cm-3 , and has a high open surface structure for electrolyte accessibility and excellent compressible properties as the electrode scaffold has been successfully fabricated by the pyrolysis method which could produce the carbon nanotube sponge easily on a large scale without high-cost and time-consuming processes. Moreover, a NiCo2 O4 nanosheet supported on the NSCS has been successfully fabricated. The highest volumetric and gravimetric capacitance of this electrode is 790 F cm-3 at 1.43 g cm-3 and 1618 F g-1 at 0.54 g cm-3 with excellent cycling stability. The density of NiCo2 O4 /NSCS electrode was adjusted by mechanical compression and the most favorable density of the film for both high volumetric and gravimetric capacitances obtained was 1.21 g cm-3 . The thick NiCo2 O4 /NSCS film of 72 μm has been fabricated at this favorable density, presenting both high volumetric and gravimetric capacitances of 597 F cm-3 and 1074 F g-1 at 1 A g-1 , respectively, indicating that the structure of the NSCS is extremely feasible for obtaining a thick film electrode with excellent volumetric and gravimetric capacitances. Furthermore, an asymmetric supercapacitor of NiCo2 O4 /NSCS//NGN/CNTs was fabricated, exhibiting a high gravimetric energy density of 47.65 W h kg-1 at 536 W kg-1 and a volumetric energy density of 33.44 W h L-1 at 376.16 W L-1 .

Full Text

Duke Authors

Cited Authors

  • Tong, H; Yue, S; Lu, L; Jin, F; Han, Q; Zhang, X; Liu, J

Published Date

  • November 2017

Published In

Volume / Issue

  • 9 / 43

Start / End Page

  • 16826 - 16835

PubMed ID

  • 29072743

Electronic International Standard Serial Number (EISSN)

  • 2040-3372

International Standard Serial Number (ISSN)

  • 2040-3364

Digital Object Identifier (DOI)

  • 10.1039/c7nr02498c


  • eng