VOC Decomposition System Based upon Heater-Integrated Catalyst Units Using NiO or Cr2O3
スポンサーリンク
概要
著者
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Mizuguchi Jin
Department Of Applied Physics Graduate School Of Engineering Yokohama National University
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Maki Atsushi
Department Of Applied Physics Graduate School Of Engineering Yokohama National University
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Mizuguchi Jin
Department Of Applied Physics Faculty Of Engineering Yokohama National University
関連論文
- Removal of NO_x Using the Reductive Properties of TiO_x (0
- VOC Decomposition System Based upon Heater-Integrated Catalyst Units Using NiO or Cr2O3
- Appearance of a Large Magnetization at Elevated Temperatures in Nearly Antiferromagnetic $\alpha$-Fe2O3
- Thermal Activation of Semiconductive NiO1+x ($0
- Recovery of Glass Fibers from Fiber Reinforced Plastics
- Hydrogen Protection from Methanol or Methane by the Use of Thermally Generated Holes in TiO2
- Characterization of Various TiO2 Powders Used for Complete Decomposition of Organic Wastes by Means of Thermally Excited Holes at High Temperatures
- Synthesis and Structure of NLO - active 8,8 - Dicyano - 3 - (4' - N, N - dimethylamino) phenylheptafulvene
- Complete Removal of Chloro-Based Volatile Organic Compounds by Thermally Activated Oxide Semiconductors
- Interpretation of the Solid-State Spectra of Tetrathiabenzoquinone Derivatives from the Standpoint of Intermolecular Interactions
- Fixation of TiO2 or SnO2 onto Al2O3 Balls and Its Use as a Compact System for Decomposition of 1 Volatile Organic Compounds
- Instantaneous and Complete Decomposition of Formaldehyde by Thermally Activated Oxide Semiconductors
- Complete Decomposition of Benzene, Toluene, and Particulate Matter Contained in the Exhaust of Diesel Engines by Means of Thermally Excited Holes in Titanium Dioxide at High Temperatures
- Organic Field-Effect Transistor Devices Based on Latent Pigments of Unsubstituted Diketopyrrolopyrrole or Quinacridone
- H2 Dissociation into H+ in High-Dielectric Media as Viewed from the Crystallinity
- Dissociation of H2 into H+ in High-Dielectric Media for Fuel-Cell Applications