Printed energy storage devices by integration of electrodes and separators into single sheets of paper

Hu, Liangbing; Wu, Hui; Cui, Yi

doi:doi:10.1063/1.3425767

Volume/Page
Keyword
DOI
Citation
Advanced

Volume: Page/Article:

Search Content Type

article doi:

Citation:

Applied Physics Letters / Volume 96 / Issue 18 / DEVICE PHYSICS

Previous Article | Next Article

LOG IN or SELECT A PURCHASE OPTION:

Buy PDF

Rent Article

Permissions / Reprints

Appl. Phys. Lett. 96, 183502 (2010); http://dx.doi.org/10.1063/1.3425767 (3 pages)

Printed energy storage devices by integration of electrodes and separators into single sheets of paper

Liangbing Hu, Hui Wu, and Yi Cui

Department of Materials Science and Engineering, Stanford University, Stanford, California 94305, USA

View Map

(Received 25 January 2010; accepted 8 March 2010; published online 5 May 2010)

Alerts
- Alert Me When Cited
- Alert Me When Corrected
Tools
Share
- Email Abstract
- Connotea
- CiteULike
- del.icio.us
- BibSonomy
- Tweet this Article
- Add to Facebook

Abstract

References (17)

Citing Articles (10)

Article Objects (3)

Related Content

We report carbon nanotube thin film-based supercapacitors fabricated with printing methods, where electrodes and separators are integrated into single sheets of commercial paper. Carbon nanotube films are easily printed with Meyer rod coating or ink-jet printing onto a paper substrate due to the excellent ink absorption of paper. A specific capacity of 33 F/g at a high specific power of 250 000 W/kg is achieved with an organic electrolyte. Such a lightweight paper-based supercapacitor could be used to power paper electronics such as transistors or displays.

RELATED DATABASES

To view database links for this article, you need to log in.

KEYWORDS and PACS

Keywords

carbon nanotubes, electrodes, electrolytes, paper, printing, supercapacitors, thin film capacitors

PACS

82.47.Uv

Electrochemical capacitors; supercapacitors
84.32.Tt

Capacitors

ARTICLE DATA

Digital Object Identifier

http://dx.doi.org/10.1063/1.3425767

PUBLICATION DATA

ISSN

0003-6951 (print)

1077-3118 (online)

Publisher

$abstract.society.value is a Member of CrossRef

American Institute of Physics

For access to fully linked references, you need to log in.

View in Separate Window/Tab pop up window icon

Selected: Export Citations | Add to MyArticles

Appl. Phys. Lett. 84, 2673 (2004)APPLAB000084000014002673000001

For access to citing articles, you need to log in.

Figures (3)

Access to article objects (figures, tables, multimedia) requires a subscription; log in to view available files.
(Access to supplementary files, where available, is free for this journal.)