Controlled Growth and Supercapacitive Behaviors of CVD Carbon Nanotube Arrays
p.11
p.11
Controlled Hydrothermal Growth of CuO-Based Nanostructures from Copper Alginate
p.19
p.19
Controlled Morphology of One-Dimensional Manganese Dioxide with Dramatic Enhancing Removal Efficiency to Heavy Metal Ions in Aqueous Solution
p.23
p.23
Controlled Synthesis of Mn3O4 and MnOOH by a Hydrothermal Method and Their Electrochemical Behaviors
p.31
p.31
Detection Trace Copper by Carbon Nanotube Chemically Modified Electrode via Flame Synthesis
p.37
p.37
Development of a Polyurethane Nanocomposite Reinforced with Carbon Nanotube Composite Nanofibers
p.41
p.41
Kinetics-Controllable Hetero-Precipitation Process on the Nanoscale Solid-Liquid Interface of Spherical Particles
p.45
p.45
Effect of Modification by WTP-08 on Dispersity of Nanosized CalciumCarbonate and Its Mechanism
p.51
p.51
Effects of Annealing on Microstructure and Mechanical Properties of Bulk Nanocrystalline Fe3Al Based Alloy Prepared by Aluminothermic Reaction
p.57
p.57
Detection Trace Copper by Carbon Nanotube Chemically Modified Electrode via Flame Synthesis
Abstract:
The grown in situ carbon nanotube chemically modified electrode (GSCNT-CME) was prepared by growing carbon nanotube (CNT) in situ on the pretreated graphite electrode (GE) via a liquid ethanol flame. The GSCNT-CME was applied to detect the trace copper in water. The researching results showed that the GSCNT-CME has good electrochemical detection sensitivity and accuracy in the detection of trace copper in water.
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Periodical:
Materials Science Forum (Volume 688)
Pages:
37-40
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Online since:
June 2011
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© 2011 Trans Tech Publications Ltd. All Rights Reserved
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