Experimental Investigation of the Flow Field of Gas-Liquid Slug
p.1802
p.1802
The Research on the Hydraulic-Control System for the Heave Compensation under the Deepwater Installation
p.1806
p.1806
Four Interacting Electrons in a Vertically Coupled Quantum Dots
p.1810
p.1810
Genetic Algorithm for Material Cost Minimization of External Strengthening System with Fiber Reinforced Polymer
p.1817
p.1817
Graphene Based Transparent Conductive Electrode
p.1823
p.1823
Intelligent Operation and Control of Refrigeration Craft in Cold Storage
p.1827
p.1827
Mechanical Properties of 5052 Al Alloy Processed by Groove Pressing
p.1831
p.1831
MEMS Technology in the Fabrication of Fluxgate Sensor with Micro-Solenoid Cores
p.1836
p.1836
Lateral Displacement Control Using Iterative Learning for Intermittent Web Transportation
p.1840
p.1840
Graphene Based Transparent Conductive Electrode
Abstract:
As indium tin oxide (ITO) can not meet the demands of many devices due to its fragility, graphene seems to be a good alternative for transparent conductor purpose. Here we employ two methods to prepare graphene oxide films, and then process them with hydroiodic acid (HI) for reduction, aiming to get an optimized scheme and higher film quality. Finally the reduced graphene oxide films with transmittance of 70~80% at 550nm show sheet resistance of <10kΩ, which are good enough for transparent conductor uses. This study portends a promising future in this field.
You might also be interested in these eBooks
Info:
Periodical:
Advanced Materials Research (Volumes 468-471)
Pages:
1823-1826
Citation:
Online since:
February 2012
Authors:
Price:
Permissions: