Optimization of Amino Group Introduction onto Polyurethane Surface Using Ammonia and Argon Surface-Wave Plasma
スポンサーリンク
概要
- 論文の詳細を見る
Effects of hydrogen and NH<sub>x</sub> species produced by a surface-wave excited Ar/NH<sub>3</sub> plasma on amino group introduction onto a polyurethane surface were studied by comparing the results of optical emission spectroscopy (OES) and primary amino group concentration. For increasing the introduced primary amino group concentration on the surface, the monitoring and control of the concentration of NH<sub>x</sub> species as a precursor and that of atomic hydrogen as an etchant are important. From the results of X-ray photoelectron spectroscopy (XPS) and OES analysis, the primary amino group concentration and the emission intensity of H<sub>\beta</sub> reached a minimum and a maximum, respectively, at around 25% NH<sub>3</sub> gas mixture ratio. An excess of atomic hydrogen over nitrogen grafting species might reduce the amino group selectivity and N/C surface density. To increase the concentration of NH<sub>x</sub> species produced in a plasma, the enhancement of NH<sub>x</sub> generation by the Penning effect was examined by adding Ar gas. As a result, the primary amino group concentration increased with the increase in the emission intensity of NH. However, the amino group selectivity became lower than that in the case of pure NH<sub>3</sub> plasma treatment since not only the primary amino group concentration but also the secondary and tertiary amino group concentrations increased with the enhanced decomposition of NH<sub>3</sub> by Ar metastables.
- 2011-08-25
著者
-
Ogino Akihisa
Graduate School Of Electronic Science And Technology Shizuoka University
-
Nagatsu Masaaki
Graduate School of Science and Technology, Shizuoka University, Hamamatsu 432-8011, Japan
-
Nagatsu Masaaki
Graduate School of Electronic Science and Technology, Shizuoka University, Hamamatsu 432-8011, Japan
-
Noguchi Suguru
Graduate School of Science and Engineering, Shizuoka University, Hamamatsu 432-8561, Japan
-
Ogino Akihisa
Graduate School of Science and Technology, Shizuoka University, Hamamatsu 432-8011, Japan
関連論文
- Production of Vanadium-Carbon Clusters Using DC Arc Discharges with Pulsed Helium/Methane Gas Injection
- Field-Emission Characteristics of Hydrogenated Amorphous Carbon Films Prepared by Surface Wave Plasma
- Amino-group introduction on polymer surface using time-modulated surface-wave plasma
- Study of Inactivation Factors in Low Temperature Surface-wave Plasma Sterilization
- Field-Emission Properties of Nanostructured WO3 Arrays Fabricated Using Tungsten Hot-Filament Chemical Vapor Deposition
- Role of Negative Electric Field Biasing on Growth of Vertically Aligned Carbon Nanotubes Using Chemical Vapor Deposition
- Effect of Ar and N2 Plasma Pretreatment with Biased Sample Holder on Amino Group Introduction Onto Polyethylene Sheet Treated by Ammonia Plasma
- Cathodoluminescence Property of ZnO Nanophosphors Prepared by Laser Ablation
- Low-Temperature Nitrogen Introduction onto Polyurethane Surface Using Surface-Wave Excited N2/H2 Plasma
- Effects of Nitrogen and Oxygen Radicals on Low-Temperature Bio-Molecule Processing
- Optimization of Amino Group Introduction onto Polyurethane Surface Using Ammonia and Argon Surface-Wave Plasma
- Immobilization of l-Cysteine onto Poly(ethylene glycol) Polymerized by Surface-Wave Plasma
- Effects of Illumination on Thermionic Energy Converter Characteristics
- Effects of N2-O2 gas mixture ratio on microorganism inactivation in low-pressure surface wave plasma (Special issue: Plasma processing)
- Effect of Hydrogen Reduction on Characteristics of Cu Thin-Films Deposited by RF-Driven Ar/H_2 Atmospheric Pressure Plasma Jet
- Effect of Water Vapor Addition on the Microwave-Excited Ar Plasma-Induced Poly(ethylene glycol) Polymerization and Immobilization of L-Cysteine
- Effect of Hole Structures on Discharge Characteristics of Planar Dielectric Barrier Electrodes with Non-through Micro-holes