| 1. | The lattice constants of the films increase and the diffraction peaks shift to low direction
薄膜的电学性质发生明显变化,面电阻率降至106 |
| 2. | The dependency of tic content versus relative intensity of x - ray diffraction peak was also studied
K值法研究确定了tic含量与xrd衍射峰相对强度的关系。 |
| 3. | One diffraction peak of the secondary phase was found in the xrd spectrum of sample annealing at 850 for 15s
在850 + 15s退火处理的样品中发现了第二相形成的衍射峰。 |
| 4. | It is verified that the oxide have obvious characteristic diffraction peaks and less impurity by x - ray diffraction ( xrd )
X射线衍射( xrd )分析表明,制备出的氧化物样品特征衍射峰明显,杂质含量少。 |
| 5. | The diffraction peak angle does n ' t change obviously as co / fe ratio , it is attributed to the radius of co fe ions are fairly similar , so the influence of substitutions on unit cell is small
而随着co fe比的变化,衍射峰角度值变化不明显,这是由于co 、 fe离子半径相差不大,它们之间的位置取代对晶胞的整体影响相对较小。 |
| 6. | The x - ray diffraction analysis of the compound powder showed that the value of the diffraction peak reduced , the breadth of the diffraction peak broadened . there was incrystallizing to a certainty degree of the compound powder
粉末的x - ray衍射分析表明,粉末的衍射峰峰值降低,峰增宽,粉末体系产生了一定程度的非晶化。 |
| 7. | Moreover , the diffraction peak shifts toward high angle as sr content increases . it is ascribed to the substitution of la3 + by sr2 + in lscf increases the average radius of a ions and causes a charge imbalance
且随着sr含量的增加,衍射峰值向高角度方向稍有偏移,这是由于低价sr ~ _ ( 2 + )取代高价la ~ ( 3 + )增加了a位离子的平均半径,同时引起电荷不平衡。 |
| 8. | And then , we measured x - ray diffractive spectrum of samples and investigated the crystal lattice structure of samples treated under different annealing temperature and different implantation condition comparing the diffraction peaks
然后,通过x射线衍射测量了样品的衍射谱,通过比较不同样品衍射峰的形状,了解了不同退火温度及注入条件下样品的晶格结构情况。 |
| 9. | The results showed that inclpc nanoparticles were ball - shaped with a size of 25 - 50 run , that their diffraction peaks become broader , and that the blue - shift in uv / vis absorption was also observed . the photoconductivity of inclpc nanoparticles in single - layered p
本章的研究旨在对有机电子传输材料进行初步的探索,为今后新型的高迁移率有机电子传输材料的合成和表征,以及应用等方面积累经验。 |
| 10. | After the cu - al mixed powder was milled 96h , the lattice constant of cu ( 111 ) plane became 0 . 3653nm , and the diffraction peaks of aluminum have disappeared completely , which showed that aluminum atoms have dissolved in crystal lattice of copper
当cu - al混合粉末球磨时间大于96h时, cu的( 111 )面的点阵常数变为0 . 3653nm , al的衍射峰已完全消失。通过分析可知,经过96h的球磨, al原子已经完全吲溶于cu的晶格中。 |
