Gemma Ryota
- 准教授
- 学位:理学博士
基本情報
所属
- Undergraduate School of Engineering / Department of Applied Chemistry
- Undergraduate School of Engineering / Department of Materials Science
- Graduate School of Engineering / Course of Applied Science
- Micro/Nano Technology Center
研究と関連するSDGs
詳細情報
研究分野
- Nanotechnology/Materials Metallic materials
- Nanotechnology/Materials Energy chemistry
論文
Deuterium Distribution in Fe/V Multi-Layered Films
CO2 methanation studied from mechanochemical approach
Role of atomic hydrogen supply on the onset of CO2 methanation over La-Ni based hydrogen storage alloys studied by in-situ approach
Chemical characterization of Mg0.25Mn0.75-H(D) nanocomposites by Atom Probe Tomography (APT)
Deuterium Analysis by Atom Probe Tomography
Effect of in-situ substrate biases changes and ex-situ hydrogen loading on in-plane stress in sm-fe thin films
Effects of hydrogen treatment and substrate hardness on the negative magnetostrictive thin films and their coatings
In-situ monitoring of CO2 methanation: pressure change upon ball-milling of LaNi5 under CO2 and H2
A Proposal for Water Transportation by a Hydrogen Energy System : A Feasibility Study for Kazakhstan
The impact of nanoscale compositional variation on the properties of amorphous alloys
Mechanochemical CO2 methanation over LaNi-based alloys
Transition of rate mechanism from internal nitriding to rapid nitriding mechanism at 12.5 mol%Cr in austenitic Fe-Cr-Ni alloy system
Role of surface oxide layers in the hydrogen embrittlement of austenitic stainless steels: A TOF-SIMS study
Relationship between hydrogen embrittlement and M-d30 temperature: Prediction of low-nickel austenitic stainless steel's resistance
Methanation of CO2 by using LaNi5 alloy with ball-milling method
Mechanical Composition Control for Ti-Based Hydrogen Storage Alloys
Effects of hot-filament emitter on magnetostrictive thin film formation by ion-plating process
Effects of magnetron sputtering on oblique deposition of magnetostrictive thin films
The effect of substrate temperature for thermal and true stress on magnetostrictive thin films
Laser-Induced Reversion of δ′ precipitates in an Al-Li Alloy
ResearchMapへ移動します
Inquiries about coverage or research
Inquiries about coverage
Public Affairs Division Public Affairs and Communications Department
Tel. 0463-63-4670(direct dialing)