1.In the design, multijunction cells pide the broad solar spectrum into three smaller sections by using three subcell band gaps.
在具体设计中,科学家利用3个带隙亚结构来将太阳光的宽谱分解成3个部分。
2.Conclusion Heterogeneity of the radiosensitivity among SGC-7901 and the subcell lines is suggested.
结论SGC-7901细胞系及其克隆亚系对放射的敏感性存在着异质性。
3.Objective To study the radiosensitivity of human gastric cancer cell line(SGC-7901) and two subcell lines picked from the line.
目的研究人胃癌细胞系SGC-7901及其克隆亚系的放射敏感性。
4.forming a middle second solar subcell over the first solar subcell having a second bandgap smaller than the first bandgap;
在所述第一太阳能子电池上方形成中部第二太阳能子电池,其具有小于所述第一带隙的第二带隙;
5.a second solar subcell disposed over the first subcell and having a second band gap smaller than the first band gap;
第二太阳能子电池,其设置在所述第一子电池上方且具有小于所述第一带隙的第二带隙;
6.forming a graded interlayer over the second subcell, the graded interlayer having a third bandgap greater than the second bandgap;
在所述第二子电池上方形成分级夹层,所述分级夹层具有大于所述第二带隙的第三带隙;
7.Improving the Subcell-FDTD Simulation Accuracy of the Currents in Conducting Thin-Wire
提高亚网格FDTD法对细导线电流的模拟精度
8.Screening of gastric carcinoma subcell line with higher metastatic potential and c-Met expression
裸鼠高转移性胃癌细胞亚系的筛选及其肝细胞生长因子受体表达
9.a grading interlayer disposed over the second subcell and having a third band gap greater than the second band gap;
分级夹层,其设置在所述第二子电池上方且具有大于所述第二带隙的第三带隙;
10.forming an upper first solar subcell on the substrate having a first bandgap;
在所述衬底上形成上部第一太阳能子电池,其具有第一带隙;