Iron and zinc doping can lower the transformation temperature of anatase to rutile.
铁及锌的掺杂会降低锐钛晶向金红石的转变温度。
The results indicates that doping and temperature of heat treatment greatly affectes the structure of thin film and its size of crystalline grain, thereby, influences its conduction and sensibility.
结果表明,掺杂和热处理温度对薄膜晶粒尺寸的大小、薄膜的结构形态均有较大的影响,进而影响薄膜的电导及传感器的灵敏度。
The effects of concentrations of aniline, oxidizing agent, doping agent, and the reaction temperature and period on the conductivity of the composite fiber were discussed.
讨论了氧化剂与苯胺的初始摩尔比、苯胺单体浓度、掺杂酸浓度、反应温度及反应时间对纤维导电性能的影响。
It is found that there is a threshold energy density in laser doping, and distributions of dopant density and depth have relation to preheat temperature and plating layer thickness of the impurities.
激光掺杂存在一个阈值能量密度。掺杂浓度和深度的分布与预热温度和杂质镀层厚度有关。
First, as to the bulk materials, we can change the temperature, pressure, carrier doping, magnetic field, and defects to tune their electronic states.
电子态的调控通常通过三种方式进行,首先,对于块体材料,我们可以利用温度、压力、载流子掺杂、磁场、缺陷等方法调控电子态的性质。
The influence of Mg concentration in doping on phase matching temperature, phase matching Angle, optical homogeneity, lattice parameter and density of the crystal is also stated.
掺镁浓度对晶体相匹配温度、相匹配角、光学均匀性、点阵常数和密度的影响。
Magnetic resistance increases with the applying field, further more, with the doping increasing, the maximum of magnetic resistance shifts to lower temperature regime.
磁致电阻率的比值随磁场的增大而增大,并且它随掺杂浓度的增加迁移到更低的温度处。
Phase transition temperature (Tc) of VO2 thin films was changed obviously by doping methods and then the electrical and optical properties were influenced.
掺杂能明显改变二氧化钒薄膜的相变温度,影响其电学和光学性质。
The results show that Li element doping results in decrease of the LaCrO_3 lattice parameters and the synthetic temperature of Li-doped lanthanum chromate.
研究发现锂元素的掺入引起晶格常数变小,同时降低了合成温度。
The influence of growth parameters including gas flow, C/Si ratio, growth temperature and pressure on growth rate and layer uniformity in thickness and doping are discussed.
比较了外延生长参数,如生长温度、生长压强、碳硅比和气流流速,与生长率和净载流子浓度的影响关系。
It's interesting that porous ZnO shows significant room temperature ferromagnetic even without any transition metal doping.
更有意思的是我们发现氧化锌多孔微球具有比较弱的室温铁磁性。
The phase transition temperature of VO2 powder is decreased remarkably by multi-doping of Molybdenum-Fluorine.
钼—氟复合掺杂对纳米粉体的相变温度有明显的降低。
The phase transition temperature of VO2 powder is decreased remarkably by multi-doping of Molybdenum-Fluorine.
钼—氟复合掺杂对纳米粉体的相变温度有明显的降低。
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