Gold Nanowire Formation of 2-Dimensional Network Structure with Electric Conductivity
スポンサーリンク
概要
- 論文の詳細を見る
Gold nanowires with a 2-dimensional network structure were formed by controlling the concentration of reductive reagent in the synthetic method for gold nanoparticles. Transmission electron microscopy images clearly showed the formation of a network structure of gold nanowires. Fusion of gold nanoparticles was confirmed by TEM images taken after the treatment of the water-soluble thiol compound, which could separate all gold nanomaterials to individual ones. The resistance of the dip-coated gold nanowire films was around 1 ohm/cm after removing gelatin by calcination.
- 社団法人 化学工学会の論文
- 2004-05-01
著者
-
SATO Yasuo
Institute of Advanced Energy, Kyoto University
-
ADACHI Motonari
Institute of Advanced Energy, Kyoto University
-
Pei L
Institute Of Advanced Energy Kyoto University
-
MORI Koichi
Institute of Advanced Energy, Kyoto University
-
PEI Lihua
Institute of Advanced Energy, Kyoto University
-
Pei Lihua
Institute Of Advanced Energy Kyoto University
-
Adachi M
Institute Of Advanced Energy Kyoto University
-
Adachi Motonari
Institute Of Advanced Energy Kyoto University
-
Mori Koichi
Institute Of Advanced Energy Kyoto University
-
Sato Y
Institute Of Advanced Energy Kyoto University
-
Sato Yasuo
Institute Of Advanced Energy Kyoto University
関連論文
- Growth Processes for Nanometer-Scale Au-Particles in Water-in Oil Microemulsions
- Characteristics of Solute Transfer in Sodium Dioleyl Phosphate/Sodium Bis(2-Ethylhexyl)Sulfosuccinate Microemulsion Systems
- BIOAFFINITY SEPARATION OF CONCANAVALIN A IN REVERSE MICELLAR SYSTEM COMPOSED OF AOT/BUTANOL OR NON-IONIC SURFACTANT
- Kinetic Analysis of the Noncompetitive Inhibition of the Lignin-Peroxidase-catalyzed Reaction by Oxalic Acid
- Effect of Acetylacetone on Morphology and Crystalline Structure of Nanostructured TiO_2 in Titanium Alkoxide Aqueous Solution System
- Ignition Characteristics of GH_2/GO_X Mixture Using Laser Ablation Ignition
- Synthesis of α,α-Dibromo Esters as Precursors of Ynolates
- Gold Nanowire Formation of 2-Dimensional Network Structure with Electric Conductivity
- Direct Chemical Synthesis of Gold Nanowires with 2-D Network Structure and Relationship between the Presence of Gold Ions and Shape Stability of Gold Nanowires
- Phenol Extraction into a Perfluoroalkane Phase Containing Extractant Tributyl Phosphate Enhanced by Addition of Alkane
- Hydrothermal Synthesis of Highly Crystallized Lepidocrocite Nanosheets of TiO_2 under Low Temperature
- Control of Morphology and Reaction Activity of CeO_2-TiO_2 Composite Nanostructures by Changing the Mole Ratio of Cerium to Titanium Alkoxides
- Formation of Titania Nanotubes with High Photo-Catalytic Activity
- Fabrication of Single Crystalline Neodymium Oxide Nanowires under Mild Conditions
- Dissolution of gaseous methyl iodide into aqueous sodium hydroxide solutions.
- Effect of carbon dioxide upon partition equilibrium of iodine between air and aqueous sodium hydroxide solutions.
- Partition equilibrium of iodine in aqueous sodium hydroxide solutions containing boric acid.
- Equilibrium in the extraction of Cu(II) by benzoylacetone in benzene.
- Rates of reactions in Cu(II)-benzoylacetone system in aqueous phase.
- Position-scanning spectrophotometer as a means of observing multicomponent diffusion phenomena in liquid phase.
- REACTIONS OF METHYL IODIDE IN AQUEOUS SODIUM HYDROXIDE SOLUTIONS
- Kinetics of copper extraction by benzoylacetone.
- REACTIONS OF IODINE IN AQUEOUS SOLUTIONS CONTAINING SODIUM HYDROXIDE
- Effect of carbon dioxide on the absorption rate and mechanism of iodine vapor.
- Reaction rate of hydrolysis of iodine.
- Mechanism and Rate of Dilute Iodine Vapor Absorption by Aqueous Sodium Hydroxide Solution
- Liquid membrane operation with aid of microemulsion. Separation of metal ions.
- Rate of ferric chloride extraction with tri-n-octylamine.
- Some characteristics of liquid membrane with tri-n-octylamine.
- DEPENDENCY OF PARTITION EQUILIBRIUM OF IODINE BETWEEN AIR AND AQUEOUS SOLUTION CONTAINING SODIUM HYDROXIDE UPON TEMPERATURE AND CONCENTRATION