Nitrogen-doped graphene synthesis with ∼g scale has been accomplished using the arc discharge method. The defects formed in the synthesis process were reduced by adding various metal catalysts, among which Bi 2 O 3 was found to be the most effective. Adding dopants to the starting materials increased the electrical conductivity of the graphene product, and the doping concentration in graphene was tuned by adjusting the amount of nitrogen dopants. A step-wise technique to fabricate graphene thin films was developed, including dispersion, separation, and filtering processes. The arc graphene can also find its potential application in supercapacitors, taking advantage of its large surface area and improved conductivity by doping.
Hyunjin Cho, InSeoup Oh, JungHo Kang, Sungchan Park, Boncheol Ku, Min Park, Soonjong Kwak, Partha Khanra, Joong Hee Lee and Myung Jong Kim
Click for full article
Hyunjin Cho, InSeoup Oh, JungHo Kang, Sungchan Park, Boncheol Ku, Min Park, Soonjong Kwak, Partha Khanra, Joong Hee Lee and Myung Jong Kim
Click for full article
No comments:
Post a Comment