Morphological Study on Porous Silicon Carbide Membrane Fabricated by Double-Step Electrochemical Etching
スポンサーリンク
概要
- 論文の詳細を見る
The structure of porous silicon carbide membranes that peeled off spontaneously during electrochemical etching was studied. They were fabricated from n-type 6H SiC(0001) wafers by a double-step electrochemical etching process in a hydrofluoric electrolyte. Nanoporous membranes were obtained after double-step etching with current densities of 10--20 and 60--100 mA/cm2 in the first and second steps, respectively. Microporous membranes were also fabricated after double-step etching with current densities of 100 and 200 mA/cm2. It was found that the pore diameter is influenced by the etching current in step 1, and that a higher current is required in step 2 when the current in step 1 is increased. During the etching processes in steps 1 and 2, vertical nanopore and lateral crack formations proceed, respectively. The influx pathway of hydrofluoric solution, expansion of generated gases, and transfer limitation of positive holes to the pore surface are the key factors in the peeling-off mechanism of the membrane.
- 2012-07-25
著者
-
Tanaka Akira
Research And Development Phadia Kk
-
Omiya Takuma
Research Institute of Electronics, Shizuoka University, Hamamatsu 432-8011, Japan
-
Shimomura Masaru
Research Institute of Electronics, Shizuoka University, 3-5-1 Johoku, Hamamatsu 432-8011, Japan
-
Shimomura Masaru
Research Institute of Electronics, Shizuoka University, Hamamatsu 432-8011, Japan
関連論文
- Growth of homogeneous InGaSb ternary bulk crystal and the observation of composition profile in the solution by X-ray penetration method (電子デバイス)
- Growth of homogeneous InGaSb ternary bulk crystal and the observation of composition profile in the solution by X-ray penetration method (シリコン材料・デバイス)
- Growth of homogeneous InGaSb ternary bulk crystal and the observation of composition profile in the solution by X-ray penetration method (電子部品・材料)
- Liquid Phase Epitaxial Growth of (3GaAs)_x{(3ZnSe)_y(Ga_2Se_3)_}_ Alloy
- LPE Growth of (3GaAs)_x{(3ZnSe)_y(Ga_2Se_3)_}_ Alloy
- Growth of GaAsP on GaP by Compositional Conversion
- liquid Phase Epitaxy of GaAs by Yo-yo Solute Feeding Method
- Homogeneous GaInSb Bulk Alloy Pulling by Solute-Feeding Czochralski Method
- Food-Dependent Exercise-Induced Anaphylaxis : Importance of Omega-5 Gliadin and HMW-Glutenin as Causative Antigens for Wheat-Dependent Exercise-Induced Anaphylaxis
- Conversion of GaAs Layer Grown on GaP Substrate to GaAsP in LPE System
- Pulling Technique of a Homogeneous GaInSb Alloy under Solute-Feeding Conditions
- Numerical Analysis of Current Transport in a BSIT
- LPE Growth of Uniform (Ga, Al)P Alloy Crystal
- p(Ga, Al)Sb/Lightly-Doped n(In, Ga)Sb Heterojunction Photodiode
- pIn_xGa_Sb-nGa_Al_ySb Heterojunction Photodiodes : B-2: GaAs FET/LED AND DETECTOR
- Formation of Bare Porous Surface on 6H-SiC Substrates by Photo-Electrochemical Etching
- Nonpolar $(11\bar{2}0)$ p-Type Nitrogen-Doped ZnO by Remote-Plasma-Enhanced Metalorganic Chemical Vapor Deposition
- Measurement of Optical-Absorption Coefficient in the Deletion Region of GaAs Schottky-Barrier Photodiode
- Void-Free Cuprous Oxide Tube Prepared by Thermal Oxidation on Outside of Copper Tube
- Morphological Study on Porous Silicon Carbide Membrane Fabricated by Double-Step Electrochemical Etching
- Heavily p-Type Silicon Carbide Thick Layer Growth by Low-Temperature Liquid Phase Epitaxy
- Multilayered Graphene from SiC Films via Pyrolysis in Vacuum
- Growth Modes of Silicon Carbide in Low-Temperature Liquid Phase Epitaxy
- Crystal Growth of InGaSb Alloy Semiconductor at International Space Station : Preliminary Experiments