离子掺杂技术 ion doping technique
离子掺杂工艺 ion implantation doping
镱离子掺杂 Yb-doped ; ytterbium ion doping
氟离子掺杂 F ion doping
高价离子掺杂 High valence cation doping
离子注入掺杂 ion implantation doping
离子注入掺杂多晶硅 ion implanted doped polysilicon
掺杂离子 the doped iron ; Doping ion
阴、阳离子复合掺杂 anion-cation compound substitution
The influence of photocatalytic modification techniques,including metal loading,ion doping to photocatalysts is also described. The development direction of photocatalysts for hydrogen production from water decomposition in the future is predicted.
介绍了氮氧化物、复合半导体、MO6型八面体单体化合物等可见光催化剂材料的研究动态,阐述了金属负载、离子掺杂等修饰技术对催化剂的影响,并对未来光催化分解水制氢催化剂的发展方向进行了展望。
参考来源 - 可见光分解水制氢光催化材料研究进展And we obtained the higher luminous intensity borate system. In the end, we have carried on the computation to the ion implantation density.
通过调整基质玻璃组分和掺杂稀土离子的含量,得到了较好的制备工艺参数,并对其进行了多方面的测试和表征,得到了较高发光强度的硼酸盐体系发光玻璃,对离子掺杂浓度进行了计算。
参考来源 - 稀土掺杂硼酸盐体系发光玻璃的制备及发光性能研究TiO2 nanospheres layer on Si wafer substrate has characteristics of hydrophilic-hydrophobic conversion with photo excitation. Such feature can be regulated by experimental conditions,ion concentration and ion doping to certain extent.
2.硅基板上TiO2纳米球表面层具有在光照条件下润湿性能转变的特性,并且这一特性能够通过实验条件、离子浓度和离子掺杂得到一定程度的调控。
参考来源 - 基于基板的TiOInfluence of doping ions on potocatalytic activity was analyzed by concentration of dopants, ion radius, ion electronic orbit and ion energy level and so on.
从离子掺杂浓度、离子半径、离子的电子轨道、以及离子的能级等方面分析了离子掺杂对TiO_2薄膜光催化活性的影响。
参考来源 - 纳米二氧化钛薄膜离子掺杂和非金属载体交互作用研究Ion-doping can obtain improvement in cycleability for spinel cathode.
离子掺杂能有效改善LiMn_2O_4的电化学性能。
参考来源 - Mg/F掺杂锂锰氧尖晶石锂离子电池正极材料·2,447,543篇论文数据,部分数据来源于NoteExpress
没有发现掺杂离子的特征峰,可以认为离子掺杂属于替位掺杂。
No characteristic peaks of the doped ions were found, the ion doping can be considered as the displacement doping.
稀土离子掺杂碲酸盐系统玻璃是一类应用前景良好的上转换发光材料。
Rare earth ions doped tellurite glasses are kinds of upconversion fluorescence materials which have good application prospect.
展望了反尖晶石离子掺杂在锂离子电池锰酸锂正极材料中的发展前景。
The development foreground of inverse spinel ions doping in positive electrode materials of lithium manganese oxide was viewed.
应用推荐