机译:界面能控制的纳米金属氢化物的热力学
Department of Chemical Engineering Faculty of Applied Sciences Delft University of Technology Julianalaan 136 2628BL Delft The Netherlands;
Department of Chemical Engineering Faculty of Applied Sciences Delft University of Technology Julianalaan 136 2628BL Delft The Netherlands;
Condensed Matter Physics Faculty of Sciences VU University Amsterdam De Boelelaan 1081 1081HV Amsterdam The Netherlands;
Condensed Matter Physics Faculty of Sciences VU University Amsterdam De Boelelaan 1081 1081HV Amsterdam The Netherlands;
Department of Radiation Radionuclides and Reactors Faculty of Applied Sciences Delft University of Technology Mekelweg 15 2629JB Delft The Netherlands;
Department of Radiation Radionuclides and Reactors Faculty of Applied Sciences Delft University of Technology Mekelweg 15 2629JB Delft The Netherlands;
Department of Chemical Engineering Faculty of Applied Sciences Delft University of Technology Julianalaan 136 2628BL Delft The Netherlands;
Department of Chemical Engineering Faculty of Applied Sciences Delft University of Technology Julianalaan 136 2628BL Delft The Netherlands;
Condensed Matter Physics Faculty of Sciences VU University Amsterdam De Boelelaan 1081 1081HV Amsterdam The Netherlands;
Department of Chemical Engineering Faculty of Applied Sciences Delft University of Technology Julianalaan 136 2628BL Delft The Netherlands;
hydrogen storage; interface energy; magnesium; multilayers; nanoconfinement;
机译:纳米级金属氢化物的界面焓-熵竞争
机译:纳米尺度下界面能及其对金属与陶瓷薄膜界面断裂的影响
机译:金属氢化物氢气压缩机的建模从氢金属相互作用的热力学观点:第Ⅰ部分。评估金属氢化物材料的性能
机译:通过将杂原子结合到高k HfO_2栅介质中的界面热力学设计,控制栅极金属有效功函数和界面层厚度
机译:研究用于高压金属氢化物氢压缩机和使用镧-镍和利用热能的钙-混合金属镍的双级金属氢化物氢压缩系统中的钙-混合金属镍。
机译:解析金属-金属氢化物界面上的氢原子
机译:纳米金属氢化物界面焓 - 熵竞争