Electrical and electrochemical properties of carbon films made of carbon black nanoparticles

YANG Bingchu; ZHOU Conghua

Chinese︱Feedback︱Save this page

• Elaborating Academic Views 　　　　 • Exchanging Innovative Ideas
• Protecting Intellectual Properties 　　• Fast Sharing Science Papers

Sponsored by the Center for Science and Technology Development of the Ministry of Education
Supervised by Ministry of Education of the People's Republic of China

Home > Papers

Electrical and electrochemical properties of carbon films made of carbon black nanoparticles

YANG Bingchu 1,ZHOU Conghua 2 * #

1.Institute of Super-Microstructure and Ultrafast Process in Advanced Materials,School of Physics and Electronics,Central South University,Changsha 410083

2. Hunan Key Laboratory for Super-Microstructure and Ultrafast Process, Central South University, Changsha 410083

*Correspondence author

#Submitted by

Subject:

Funding: Ph.D. Program Foundation of Ministry of Education of China （No.No. 20110162110059）, National Natural Science Fund of China （No.No.61172047,No. 61306080)）, China Postdoctoral Science Foundation （No.No. 2012M511394), the Postdoctoral Science Foundation of Central South Universit）

Opened online:15 August 2014

Accepted by: none

Citation: YANG Bingchu,ZHOU Conghua.Electrical and electrochemical properties of carbon films made of carbon black nanoparticles[OL]. [15 August 2014] http://en.paper.edu.cn/en_releasepaper/content/4606264

In this paper, a kind of paste mixed with graphite, carbon black and TiO2 nanoparticles were prepared which was utilized to fabricate the so-called carbon film. With assistance of scanning electron microscope, surface morphological properties of the films were monitored with variance of wt% of carbon black in the system. Meanwhile, electrical and electrochemical performance of the films was also studied. Furthermore, weight loss of carbon black was considered, thus effect of annealing temperature on micro-structural, electrical and electrochemical properties of the carbon films was examined. Sheet resistance of 3 ohm/sq along with charge transfer resistance of 4 ohm*cm2 were achieved for the carbon films fabricated on FTO substrate and annealed at temperature of 200℃. Annealing at higher temperature was found to deteriorate electrical conductivity due to weight loss of carbon black.

Keywords:Materials physics and chemistry; carbon film; graphite; carbon black; sheet resistance; charge transfer resistance

For this paper

● PDF (0B)
● Revision 0 　　
● Print this paper
● Recommend this paper to a friend
● Add to my favorite list

Saved Papers

Please enter a name for this paper to be shown in your personalized Saved Papers list

Tags

Add yours

Related Papers

Statistics

PDF Downloaded	205
Bookmarked	0
Recommend	5
Comments	Array

Submit your papers

Alert Name:
Alerting to:
Authentication email will be sent to your email address in 24 hours
Frequency:
Email Message Format:	Plain text Graphical(HTML)

Complete the form below and we will recommend the selected titles to your friends on your behalf. * Indicates a required field.
Your name*:
Your email address*:
Recipient's name*:
Recipient's email address*:
(multiple recipient's names and email addresses should be separated with semicolons)
Your comments:	I thought you would find the page(s) useful.

Your name:
Your email address:
Recipient's name:
Recipient's email address:
(multiple recipient's names and email addresses should be separated with semicolons)
Your comments:	I thought you would find this page useful.

Disclaimer: This message was sent to your friend using the "Send it to a friend" facility on the Sciencepaper Online’ WWW site, http://www.paper.edu.cn/en. The Sciencepaper Online is not responsible for the content of this email, and anything said in this email does not necessarily reflect the Sciencepaper Online's views.

	Check out RSS, or use RSS reader to subscribe this item

Saved Papers